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well the relationship between mass and force is..........*relationship... Force=mass x acceleration
Gravitational force is the strongest when you are the closest to a mass.
Yes, the BMI scale or Body Mass Index is a tool used to measure the percentage of body fat in an individual using both height and weight. The formula uses your weight divided by the square of your height.
body mass index
Gravity
The downwards force acting on the mass due to gravity will always be given by the mass of the object by the acceleration due to gravity. As this will not change due to the angle at which you hold it, you will have to exert the same force in both scenarios to hold the mass steady.
They exert Gravitational Force on each other. It is a force which is directly proportional to Mass of the object
Mass will exerts a force unless it is massless in relative situation
Mass will exerts a force unless it is massless in relative situation
a force of depend on mass
Mass
Because it has a larger mass
If the object having some mass then for sure it exert a gravitational force.The more the mass the more will be gravity.
Your mass is how much matter you are made up of. Your weight is how much force you exert on your surroundings. If the force of gravity is greater or weaker, then your constant mass will exert more, or less force on the surroundings, ie, your weight will be different.
I assume you mean, why do they exert gravitational attraction. ANY object with mass, so any object, exerts such a force on ANY other mass.
Answer #1: A gravitational force exists between every two masses. Answer #2: When you hold something in your hand and then let go of it, what usually happens to it ? What does this tell you ? Yes, Earth does exert gravitational force on anything with mass.
Two particles which do not exert gravitational force on each other will be mass less particles. But particle has even a litle mass. Hence we cannot find two particles which do not exert gravitational force on each other.