How does the force of attraction between the two bodies depend upon their masses and distance between them ? A student thought that two bricks tied together would fall faster than a single one under the action of gravity. Do you agree with his hypothesis or not ? comment.

The gravitational force of attraction between two bodies is F_(1). If the mass of each body is doubled and the distance between them is halved, then the gravitational force between them is

Suppose the force of gravitation between two bodies of equal masses is F. If each mass is doubled keeping the distance of separation between them unchanged, the force would become

State whether the following statements are true or false: (a) A falling stone also attracts the earth. (b) The force of gravitation between two objects depends on the nature of medium between them. The value of G on the moon is about one-sixth ((1)/(6)) of the value of G on the earth. (d) The acceleration due to gravity acting on a freely falling body is directly proportional to the mass or the body. The weight of an object on the earth is about one-sixth of its weight on the moon.

(a) Value of gravitational constant depends neither on mass of two objects nor on distance between them. Is it true? (b) Magnitude of gravitational force does not depend upon medium separating the two object. Do you agree?

If the masses of two bodies are quadrupled and the distance between their centres is doubled, then how many times the force of gravitation between them will be changed ?

If the distance between two bodies is dobled and mass of any one of the bodies is quadrupled then the percentage increase in their force of attraction will be.

Two bodies A and B of masses 50 kg and 100 kg are kept at a distance of 2 m on the surface of the earth. The gravitational force of attraction between them is F. A and B are then taken to the moon and are kept at the same distance of 2 m. The acceleration due to gravity on the surface of the moon =(g)/(6) , where g is the acceleration due to gravity on the earth. What will be the gravitational force of attraction between A and B on the surface of the moon ?

If the distance between the two bodies is increased to two times, then by how many times the mass of one of the bodies to be changed to maintain the same gravitational force ?

A Physics teacher is explaining the difference between average speed and average velocity to her students. Where average velocity = ("displacement")/("time taken") , "average speed" = ("actual distance travelled")/("time taken") She emphasises that average speed is more relevant than average velocity, because displacement from one place to other is only theoretical, being the shortest distance between two places. Average speed is the real entity that matters, taking into account the actual time taken to travel the actual distance between the two stations. Read the above passage and answer the following question : (i) Do you agree with the statement of Physics teacher ? (ii) The shortest distance between Ambala to Delhi is 200 km . A train takes 4 hrs and covers a distance of 210 km in going from Ambala to Delhi via Karnal. Another train takes 5 hrs and covers 250 km distance in going from Ambala to Delhi via Saharanpur. What is the average speed of these two trains? What would be the average velocity of a train that takes 2.5 hrs to cover 200 km distance ? (iii) What values do you learn from this discussion ?

Distance between two bodies is double. What happens to gravitational force of attraction between them ?this force is to be kept unchanged, how should mass of one of the bodies be changed?