Describe the model and theory of planetary motions presented in the earliest of times.
(A) The earliest recorded model for planetary motions,proposed by Ptolemy about $2000$ years ago,was a 'geocentric' model in which all celestial objects,including stars,the sun,and the planets,revolved around the earth.
$A$ more elegant model,the 'heliocentric' model,in which the sun was the center around which the planets revolved,was mentioned by the Indian sage and scientist Shri Aryabhatta in his treatise. $A$ thousand years later,Nicholas Copernicus proposed a model in which the planets moved in circles around a fixed central sun. His theory was initially opposed by the church but was supported by the observations of Galileo.
Following Galileo,Tycho Brahe recorded detailed observations of the planets with the naked eye. His compiled data were later analyzed by Johannes Kepler,who formulated three laws of planetary motion. These laws were known to Newton and enabled him to make a great scientific leap in proposing his universal law of gravitation.
$A$ more elegant model,the 'heliocentric' model,in which the sun was the center around which the planets revolved,was mentioned by the Indian sage and scientist Shri Aryabhatta in his treatise. $A$ thousand years later,Nicholas Copernicus proposed a model in which the planets moved in circles around a fixed central sun. His theory was initially opposed by the church but was supported by the observations of Galileo.
Following Galileo,Tycho Brahe recorded detailed observations of the planets with the naked eye. His compiled data were later analyzed by Johannes Kepler,who formulated three laws of planetary motion. These laws were known to Newton and enabled him to make a great scientific leap in proposing his universal law of gravitation.
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View SolutionAssertion $(A)$: Angular speed,linear speed,and kinetic energy change with time,but angular momentum remains constant for a planet orbiting the sun.
Reason $(R)$: Angular momentum is constant as no external torque acts on the planet.
Reason $(R)$: Angular momentum is constant as no external torque acts on the planet.
Given below are two statements: one is labelled as Assertion $(A)$ and the other is labelled as Reason $(R)$.
Assertion $(A):$ The radius vector from the Sun to a planet sweeps out equal areas in equal intervals of time and thus the areal velocity of the planet is constant.
Reason $(R):$ For a central force field,the angular momentum is a constant.
In the light of the above statements,choose the most appropriate answer from the options given below:
Assertion $(A):$ The radius vector from the Sun to a planet sweeps out equal areas in equal intervals of time and thus the areal velocity of the planet is constant.
Reason $(R):$ For a central force field,the angular momentum is a constant.
In the light of the above statements,choose the most appropriate answer from the options given below:
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