🌟 Exclusive 2024 Prime Day Deals! 🌟

Unlock unbeatable offers today. Shop here: https://amzn.to/4cEkqYs 🎁

10 African Kingdoms No One Talks About But Should

You have an inferiority complex. Thats why you and the other monkeys are on this thread now.

I disagree but ... what are you here for again? A non answer in 5 4 3 2 .... ...
Dont care if you disagree. It obvious you and the other monkeys are insecure about the thread. I here to talk about African Kingdoms and other African accomplishments.

So you spam the thread with personal attacks that you could never substantiate? Odd. In any case, shouldn't such a thread be in the history section?
You are under the impression I have to substantiate anything to you. Youre like a bug to me. You simply dont rate more than me mocking you.

You haven't noticed that you've been mocking yourself? A common problem in the black community indeed.
Youre confused like monkeys tend to be. I was definitely mocking you and the other monkeys. its a common problem amongst your type that you have a hard time getting reality.
 
LOL "Astrology." What an idiot. Should I correct him or should I let him think he made a point?
You cant correct him Astrology was used in Africa before whites were sentient.

I wouldn't brag about "astrology" more so than I would "astronomy." But I see you also don't know the difference between the two.
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Lets play find the black dude

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
 
You lack any substance. Youre a one trick pony that cant stay on point.

the irony.
You are quite ironic. A weak white boy threatened by a thread about African Kingdoms. Seems to me if your culture was so superior you wouldnt even make an appearance. I know I dont care about white history because its irrelevant to me. Your very presence proves you are threatened. Practically everyone knows that.

Having earned my MA in Military history, all history is relevant and fascinating to me.
Sure....I believe you...No I really do. :itsok:

That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif
 
You cant correct him Astrology was used in Africa before whites were sentient.

I wouldn't brag about "astrology" more so than I would "astronomy." But I see you also don't know the difference between the two.
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact and recorded by other white boys. Even still they couldnt do what the Dogon did.
 
I wouldn't brag about "astrology" more so than I would "astronomy." But I see you also don't know the difference between the two.
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black Fields Medal winner. OK, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).
 
the irony.
You are quite ironic. A weak white boy threatened by a thread about African Kingdoms. Seems to me if your culture was so superior you wouldnt even make an appearance. I know I dont care about white history because its irrelevant to me. Your very presence proves you are threatened. Practically everyone knows that.

Having earned my MA in Military history, all history is relevant and fascinating to me.
Sure....I believe you...No I really do. :itsok:

That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
 
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.
 
You are quite ironic. A weak white boy threatened by a thread about African Kingdoms. Seems to me if your culture was so superior you wouldnt even make an appearance. I know I dont care about white history because its irrelevant to me. Your very presence proves you are threatened. Practically everyone knows that.

Having earned my MA in Military history, all history is relevant and fascinating to me.
Sure....I believe you...No I really do. :itsok:

That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.
 
Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.

I said not Astrology. But then again, there is a question of whether or not he was black.
 
Having earned my MA in Military history, all history is relevant and fascinating to me.
Sure....I believe you...No I really do. :itsok:

That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.

Anyone who studied history at any leftist liberal arts college/university in the past 30 years can be rest assured that they learned exactly what you claim they did not.
 
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.

I said not Astrology. But then again, there is a question of whether or not he was black.
Theres no question he was Black. Imhotep was a multi genuis. The first physcian, astronomer, architect etc etc. Not really concerned with your denial of that.
 
Sure....I believe you...No I really do. :itsok:

That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.

Anyone who studies history any leftist liberal arts college/university can be rest assured that they learned exactly what you claim they did not.
Doesnt change the fact that white boy history is best described as pseudo history/science etc.
 
Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.

I said not Astrology. But then again, there is a question of whether or not he was black.
Theres no question he was Black. Imhotep was a multi genuis. The first physcian, astronomer, architect etc etc. Not really concerned with your denial of that.

And he studied astrology. Which is kind of Astronomy minus the science and math.
 
White boys after the fact. Even still they couldnt do what the Dogon did.

Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.

I said not Astrology. But then again, there is a question of whether or not he was black.
Theres no question he was Black. Imhotep was a multi genuis. The first physcian, astronomer, architect etc etc. Not really concerned with your denial of that.

And he studied astrology. Which is kind of Astronomy minus the science and math.
He also studied astronomy. Which is kind of like the study of the stars with the math and science. BTW he was also a mathematician. This is why the Greek white boys worshiped him as a god.
 
That's ok. I don't yearn for your trust or approval.
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.

Anyone who studies history any leftist liberal arts college/university can be rest assured that they learned exactly what you claim they did not.
Doesnt change the fact that white boy history is best described as pseudo history/science etc.

As in all historical categories it varies between those who wrote it. I have studied under quite a few black historians who would likely think you're the laughing stock of their race.
 
Next he's going to tell me he knows of a black fields medal winner. Oh, that was a cheap shot. But still. Name the great ancient black astronomer you speak of. (Not Astrology, but Astronomy).

Next your going to tell me Fields medal was made up by whites....Oh it was. Now wonder no Black recipients. White boys are very insecure.

The most famous Black astronomer was Imhotep but there were many before him that laid the foundation.

I said not Astrology. But then again, there is a question of whether or not he was black.
Theres no question he was Black. Imhotep was a multi genuis. The first physcian, astronomer, architect etc etc. Not really concerned with your denial of that.

And he studied astrology. Which is kind of Astronomy minus the science and math.
He also studied astronomy. Which is kind of like astronomy with the math and science. BTW he was also a mathematician.

Well happy day!! What happened to them by the way? Oh yes, those who were technologically, intellectually, and scientifically more advanced swept them off the face of the earth.

By the way. Astronomy had not been invented yet.
 
I wouldn't brag about "astrology" more so than I would "astronomy." But I see you also don't know the difference between the two.
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact and recorded by other white boys. Even still they couldnt do what the Dogon did.
16340.png
 
Sure. Thats why you chose to attempt to regal me with your supposed accomplishments.
itsok.gif

Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.

Anyone who studies history any leftist liberal arts college/university can be rest assured that they learned exactly what you claim they did not.
Doesnt change the fact that white boy history is best described as pseudo history/science etc.

As in all historical categories it varies between those who wrote it. I have studied under quite a few black historians who would likely think you're the laughing stock of their race.
Sure you have. All thats important is I think you are the laughing stock of your race.
 
You cant brag about astrology or astronomy. You had nothing to do with either.

Says the guy who never once heard of Johannes Kepler. But once again, you don't know the difference between the two do you?
Another monkey deflection. Even if I didnt know the difference you still couldnt be proud of astrology or astronomy because you nor any other white person had anything to do with either field.

Claudius Ptolemy
c. 90 – 168
Ptolemy was the most influential astronomer, geographer, and mathematician of ancient times. He lived in Alexandria, Egypt which was a major center of knowlege of the ancient mediteranean. He promoted the (geocentric) idea that the Earth was the center of the Universe and that all things revolved around it. This theory prevailed for the next 1400 years. The writings of Ptolemy include names and outlines of 48 constellations that are still in use today.

Nicolaus Copernicus
1473 – 1543
Copernicus wrote a treatment on the solar system that suggested that the Sun was more likely to be in the center than the Earth. It is named "On the Revolutions of the Heavenly Bodies." The idea of a heliocentric or sun-centered system is considered so important to history that it is often referred to as the "Copernican Revolution." Once we accept that the Sun is a star, we immediately are confronted with the possibility that the galaxy is filled with suns and planets. From then on, whenever we look into space, we realize that someone may be looking back.

Tycho Brahe
1546 - 1601
As royal astronomer of Denmark (before telescopes), he used a "quadrant" to precisely measure the positions of celestial objects, especially Mars. This data would later prove crucial to Kepler in formulating the laws of planetary motion. He observed a supernova and showed that it could not be within our atmosphere. Likewise he showed that comets must be farther away than the Moon. To say the least, Brahe was a colorful character. He got into an argument over a math question which led to a knife fight and part of his nose was cut off. He had a gold and silver replacement made and carried around a box of glue to keep it stuck on.

Galileo Galilei
1564 – 1642
Galileo formulated the basic law that all falling bodies fall at the same rate. Notably, he verified his conclusions by carefully designed experiments and measurements. He constructed a refractor telescope with which he viewed craters on the Moon, the phases of Venus, and the rings of Saturn. He discovered four moons revolving around Jupiter. He agreed with Copernicus that the Earth and other planets revolved around the Sun. For promoting this and other science, he was arrested and tried for heresy by the Roman Catholic Church.

Johannes Kepler
1571 - 1630
Kepler "broke the code" of planetary orbits. After the death of Tycho Brahe he was appointed successor as the imperial mathematician. Using Brahe's meticulous notes on the positions of Mars he was able to deduce that the planets orbit around the Sun, but in ellipses, not circles as Copernicus had assumed. Kepler articulated three laws of planetary motion. 1. Planets travel in ellipses with the Sun at one focus of the ellipse. 2. An imaginary line between a planet and the Sun sweeps out equal area in equal time. 3. The square of the total time period of an orbit is proportional to the cube of the average distance of the planet to the Sun.

Isaac Newton
1642 - 1727
Listing all of Newton's contributions to science would fill volumes. For the science of astronomy certain areas of work stand out. He designed a new type of reflecting telescope which is now called a "Newtonian" telescope. Most amateur telescopes in use today are Newtonians. He used a prism to show that white light is actually made of colors. His laws of motion and gravity are the basis for understanding Kepler's laws of planetary orbits.


Edmund Halley
1656-1742
Amongst his many studies are tides, magnetism, and trade winds. He catalogued 341 southern hemisphere stars and discovered a star cluster in Centaurus. He also made the first complete observation of a transit of Mercury on November 7, 1677. He also invented the diving bell. But his most famous accomplishment is that he worked out a theory of the orbits of comets, concluding that the comet of 1682 (which still bears his name) was periodic, and that it would return in 76 years. Halley had died by the time the comet returned but the success of the prediction greatly elevated the level of confidence people had in the power of science.


Charles Messier
1730 - 1817
Messier was a comet-hunting French astronomer who sought to catalog the location of deepsky objects that could easily be mistaken for comets in small telescopes. His list contains a few more than 100 diffuse objects. The actual number is controversial because of problems with identifying certain objects. M40 may not exist at all, or at best is a dim double star pair. M102 is probably a duplicate entry of M101.
Today the list is considered the sky's very best showpiece objects for deepsky enthusiasts. All the objects can be seen with small amateur telescopes and many can be seen with binoculars.


William Herschel
1738 - 1822
The discoveries Herschel made are many. He built a 48-inch telescope which was the world's largest for more than 50 years. He discovered what he first thought was a comet, but turned out to be planet Uranus. Eventually he also discovered two moons of Uranus; Titania and Oberon, and two moons of Saturn; Enceladus and Mimas. He determined that our solar system is moving in the direction of Hercules. He went on to catalog about 2500 deep sky objects. The Astronomical League has designated some of these for amateur programs such as the Herschel 400 Club.


Henrietta Leavitt
1868 - 1921
Studying variable stars in the Magellanic Clouds, she discovered that certain variable stars have a cycle that corresponds to their luminosity; the brighter the star, the longer the period. Using this relationship, she was able to determine that the intrinsic brightness of these stars is predictable. By comparing that value to the apparent brightness, the difference can then be used to calculate their distance from Earth. This method became an important yardstick for measuring the size of the Milky Way as well as the distance to nearby galaxies.


Edwin Hubble
1889 - 1953
Before Hubble's big discovery many astronomers thought our Milky Way was the whole Universe. The Andromeda Galaxy was called the Andromeda Nebula. Some had speculated about external "island universes" but Hubble found the proof. Not only did he show that there are giant systems of stars outside the Milky Way (which we now call galaxies), but Hubble's Law explains how the galaxies are receding away from each other. This movement suggests the Universe is getting bigger. If it is getting bigger, that means it use to be smaller. This discovery led astronomers to the Big Bang Theory which is a model that astronomers have high confidence in today.


Albert Einstein
1879 - 1955
The contributions that Einstein gave to the astronomical community are so significant that the depth of some them are still being explored today. Some of the areas of major impact concern the nature of light, gravity, and time.
It is in regards to the nature of light that Einstein received a Nobel Prize. He explained the "photoelectric effect." The essence of this work is that the amount of energy contained in various light waves are directly related to the light's wavelengths. For example, blue light is more energetic than red.
Einstein gave us a whole new perspective on gravity called General Relativity. Instead of viewing gravity as an attractive force between two objects (like Newton), he viewed it as a shape. By treating space itself as a thing with shape that can be distorted in the vicinity of matter, he gave us a powerful tool for explaining extreme situations and effects, like black holes.
The strange nature of time is explained in Einstein's Theory of Special Relativity. It shows how time is not absolute, but elastic, stretching or compressing depending on the individual observer's point of view. As bizzare as that may seem, this is one of the most tested and successful theories in history.
White boys after the fact and recorded by other white boys. Even still they couldnt do what the Dogon did.
16340.png

Welcome back. Got an argument to make today or more of the same accusations within the realm of your noted specialty?
 
Clearly marking the difference between you and I. I'm educated in the study of history, you are not. I value all history and you clearly do not.
Your obviously not educated in history. You may be educated in the white boys version but that cant be called real history.

Anyone who studies history any leftist liberal arts college/university can be rest assured that they learned exactly what you claim they did not.
Doesnt change the fact that white boy history is best described as pseudo history/science etc.

As in all historical categories it varies between those who wrote it. I have studied under quite a few black historians who would likely think you're the laughing stock of their race.
Sure you have. All thats important is I think you are the laughing stock of your race.

Why thank you.
 

Forum List

Back
Top