Advertisements
Advertisements
प्रश्न
What happens to the gravitational force between two objects when the distance between them is :
(1) doubled ?
(2) halved ?
उत्तर
`F = (GMm)/r^2`
where,
F − gravitational force
G − gravitational constant
M − mass of the earth
m − mass of object
r − distance
(i). r = doubled
`F = (GMm)/r^2` keeping everything constant i.e. G, M, m
= `(GMm)/(2r)^2`
= `(GMm)/(4r^2)`
F becomes one-fourth.
(ii) r = halved
`F = (GMm)/r^2` keeping everything constant i.e. G, M, m
= `(GMm)/(1/(2r))^2`
= `(GMm)/(1/(4r))^2`
= `(4GM m)/(r^2)`
F becomes four times the original.
APPEARS IN
संबंधित प्रश्न
Name the scientist who explained the motion of planets on the basis of gravitational force between the sun and planets.
What type of force is involved in the formation of tides in the sea ?
State the SI unit of acceleration due to gravity.
What is the actual shape of the orbit of a planet around the sun? What assumption was made by Newton regarding the shape of an orbit of a planet around the sun of deriving his inverse square rule from Kepler's third law of planetary motion?
What is the free fall?
Write proper answer in the box:
If `"F" = ("G""m"_1"m"_2)/"d"^2` then F = ______
The force of attraction between two unit point masses separated by a unit distance is called :
An apple of mass 100 g falls from a tree because of gravitational attraction between the earth and the apple. If the magnitude of force exerted by the earth on the apple be F1 and the magnitude for force exerted by the apple on the earth be F2, then :
A _______ is necessary to change the speed as well as the direction of motion of an object.
An apple falls from a tree because of gravitational attraction between the earth and the apple. If F1 is the magnitude of the force exerted by the earth on the apple and F2 is the magnitude of the force exerted by the apple on earth, then
