Supposing Newton's law of gravitation fo...

Supposing Newton's law of gravitation for gravitation force `F_(1)` and `F_(2)` between two masses `m_(1)` and `m_(2)` at positions `r_(1)` and `r_(2)` read `F_(2)=-F_(2)=(r_(12))/(r_(12)^(3))GM_(0)^(2)((m_(1)m_(2))/(M_(0)^(2)))^(n)` where `M_(0)` is a constant dimension of mass, `r_(12)=r_(1)-r_(2)` and `n` is number. In such a case.

the acceleration due to gravity on earth will be different for different objects

none of the three laws kepler will be valid

only the third law will become invalid

for `n` negative, an object lighter than water will sink in water.

Text Solution

Verified by Experts

The correct Answer is:

A, C, D

Topper's Solved these Questions

GRAVITATION
NARAYNA|Exercise LEVEL -I(H.W)|56 Videos
GRAVITATION
NARAYNA|Exercise LEVEL-II (H.W)|32 Videos
GRAVITATION
NARAYNA|Exercise LEVEL III|44 Videos
FRICTION
NARAYNA|Exercise Passage type of questions I|6 Videos
KINETIC THEORY OF GASES
NARAYNA|Exercise LEVEL-III(C.W)|52 Videos

Similar Questions

Explore conceptually related problems

Supposing Newton's law of gravitation for gravitation forces F_(1) and F_(2) between two masses m_(1) and m_(2) at positions r_(1) and r_(2) read where M_(0) is a constant of dimension of mass, r_(12) = r_(1) - r_(2) and n is a number. In such a case,

Gravitational force, F=Gm_(1)m_(2)//r.

Position vector of centre of two particles of masses m_(1) and m_(2) whose position vectors r_(1) and r_(2) then r_(cm) ?

The gravitional force between two point masses m_(1) and m_(2) at separation r is given by F=k (m_(1)m_(2))/r^(2) The constant k

The gravitational force between two point masses m_(1) and m_(2) at separation r is given by F = k(m_(1) m_(2))/(r^(2)) The constant k doesn't

According to Newton's law of gravitation , the force F between tow bodies of masses m_1 and m_2 placed at a distance of 'r' form each other is given as F = G xx (m_(1)xx m_(2))/r_(2) , where G is the universal gravitional constant. Find the units of G in both C.G.S. and S.I. system.

The magnitude of the gravitational field at distance r_(1) and r_(2) from the centre of a uniform sphere of radius R and mass M are F_(1) and F_(2) respectively. Then:

Gravitational force between two objects with mass m_(1)" and "m_(2) kept r distance apart is given as F_(G)= (Gm_(1)m_(2))/(r^2) , where G is gravitational constant. Express the relative error in F_(G) .

NARAYNA-GRAVITATION-NCERT BASED QUESTIONS

Choose the wrong option.
Text Solution
|
particles of masses 2M m and M are resectively at points A , B and C w...
Text Solution
|
Which of the following options are correct ?
Text Solution
|
If the law of gravitational, instead of being inverse-square law, beco...
Text Solution
|
If the mass of sun were len times smaller and gravitational consitant ...
Text Solution
|
If the sun and the planets carried huge amounts of opposite charges
Text Solution
|
There have been suggestions that the value of the gravitational consta...
Text Solution
|
Supposing Newton's law of gravitation for gravitation force F(1) and F...
Text Solution
|
Which of the following are true?
Text Solution
|
The centre of mass of an extended body on the surface of the earth and...
Text Solution
|
An artificial satellite is going round the earth, close to its surface...
Text Solution
|
A satellite revolves in an orbit close to the surface of a planet of m...
Text Solution
|
An artifical satellitee of mass 100 kg is in a circular orbit at 500 k...
Text Solution
|
A body is to be projected vertically upwards from earth's surface to r...
Text Solution
|
Given that T^(2) = kR^(3), express the constant k of the above relatio...
Text Solution
|
Which of the following is correct?
Text Solution
|
An object is weighted at the North Pole by a beam balance and a spring...
Text Solution
|
For a planet moving and the sun in an elliptical orbit, which of the f...
Text Solution
|
If a satellite orbits as close to the earth's surface as possible,
Text Solution
|
A satellite is to be geo-stationary, which of the following are essent...
Text Solution
|