State Kepler’s Law and Write the three laws given by Kepler. How did they help Newton to arrive at the inverse square law of gravity?
Answers
Answer:
Three laws given by Kepler are as follows:
FIRST LAW: The orbits of the planets are in the shape of ellipse, having the Sun at one focus.
SECOND LAW: The area swept over per hour by the radius joining the Sun and the planet is the same in all parts of the planet's orbit.
THIRD LAW: The squares of the periodic times of the planets are proportional to the cubes of their mean distances from the Sun.
Newton used Kepler's third law of planetary motion to arrive at the inverse- square rule. He found that the orbits of the planets around the sun are circular, and not elliptical, and so derived the inverse - square rule for gravitational force using the formula for centripetal force. This is given as:
F= m/r → (1), where m is mass of the particle, r is the radius of the circular path of the particle and v is the velocity of the particle. Newton used this formula to determine the force acting on a planet revolving around the sun. Since the mass m of a planet is constant equation (1) can be written as :
F∝ → (2)
Now, if the planet takes time T to complete one revolution around the sun, then its velocity v is given as:
v = 2r/T → (3), where r is the radius of the circular orbit of the planet.
or, v∝ r/T → (4)
On squaring both sides of the equation, we get: ∝/ → (5)
On multiplying and dividing the right hand side of the relation by r, we get:
a1/r → (6)
According to Kepler's third law of planetary motion, the factor / is a constant. Hence equation (6) becomes:
∝ 1/r → (7)
On using equation (7) in equation (2) we get
F∝1/
Hence, the gravitational force between the sun and a planet is inversely proportional to the square of the distance between them.
Explanation:
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Answer:
The three laws given by Kepler :
- The orbit of a planet is an ellipse with the sun at one of the foci.
- The line joining the planet and the sun sweeps equal area in equal intervals of time.
- The square of its period of revolution around the sun is directly proportional to the cube of the mean distance of a planet from the sun.
Explanation:
If a planet is revolving around the sun in a circular orbit in uniform circular motion then the centripetal force acting on the object towards the sun must be F = mv² / r .....(1)
where M is the mass of the planet ,
v is its speed and R is the distance from the sun.
the speed of a planet can be expressed in terms of the period of revolution t.
the distance travelled by a planet in one Revolution is equal to perimeter of the object = 2πr
As we know,
speed = distance travelled/ time required
v = distance/ time
= 2πr / T .....(2)
Putting the value of v from equation (2) in (1),
F = 4mπ² / r² × ( r³ / T²).....(3)
According to Kepler 3rd law,
T²/r³ =k....(4)
Putting value of (4) in (3),
F = 4mπ² / r² × 1/k
F = constant 1/r
In this way Kepler law's helped Newton.