Want this question answered?
The force too gets doubled as force is proportional to the mass of each object.
It is obviously a Gravitational force of attraction present between earth and object.
No the weight of an object has nothing to do with friction. Weight is the gravitational attraction of the object and the planet.
There will be a force of attraction between them.
Mutual force of gravitational attraction.
A black hole has the greatest force of gravitational attraction. Even light rays can't escape.
Gravitational force acts on all objects, meaning ALLmatter.
In solid state force of attraction are greatest
gravity
Objects with the greatest mass will have the greatest force of gravity attracting them to the surface of the earth. Gravitational attraction is based on the mass of an object and the distance between the two "attractors" involved. For things on the Earth's surface, more mass equates to greater gravitational attraction. It's a direct relationship.
gravitational force
The force exerted is dependent on the mass of the object.
Gravitational force exerts an attraction on objects.
The force too gets doubled as force is proportional to the mass of each object.
It is obviously a Gravitational force of attraction present between earth and object.
-- Measure the force of attraction between the object and the earth. ("WEIGH" the object.)-- Divide the force by the acceleration of gravity.-- The answer is the mass of the object.
No the weight of an object has nothing to do with friction. Weight is the gravitational attraction of the object and the planet.