| ⇦ | 
| ⇨ |
Kepler’s third law states that square of period of revolution (T) of a planet around the sun, is proportional to third power of average distance r between sun and planet i.e. T²=Kr³ here K is constant. If the masses of sun and planet are M and m respectively then as per Newton’s law of gravitation force of attraction between them is F=GMm/r², here G is gravitational constant. The relation between G and K is described as
Options
(a) GMK=4π²
(b) K=G
(c) K=1/G
(d) GK=4π²
Correct Answer:
GMK=4π²
Explanation:
No explanation available. Be the first to write the explanation for this question by commenting below.
Related Questions: - 34 gram of water at 30⁰C is poured into a calorimeter at 15⁰C.
- In a uniform circular motion, work done in one complete rotation is
- Which dimensions will be the same as that of time?
- Magnetic susceptibility of a material is given as
- The rate of increase of thermo-e.m.f. with temperature at the neutral temperature
Topics: Gravitation
(63)
Subject: Physics
(2479)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
- 34 gram of water at 30⁰C is poured into a calorimeter at 15⁰C.
- In a uniform circular motion, work done in one complete rotation is
- Which dimensions will be the same as that of time?
- Magnetic susceptibility of a material is given as
- The rate of increase of thermo-e.m.f. with temperature at the neutral temperature
Topics: Gravitation (63)
Subject: Physics (2479)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
18000+ students are using NEETLab to improve their score. What about you?
Solve Previous Year MCQs, Mock Tests, Topicwise Practice Tests, Identify Weak Topics, Formula Flash cards and much more is available in NEETLab Android App to improve your NEET score.
Share this page with your friends
Leave a Reply