The moon and the earth
Answer The Universal Law of Gravitation states the gravitational force between any two objects of mass can be calculated with the equation F=G*(m_1*m_2)/r^2. As a result, increasing the mass of one or both objects increases the gravitational force. Increasing the distance between the two objects decreases the gravitational force. Notice the distance between them is squared so if you keep the masses the same and double the distance between them the gravitational force will decrease by four times.
Because we r not sensitive.lol
AAt
AAt
Yes, it does. Another opinion: No it doesn't. The formula for the force of gravity involves masses and distance. There is no gravitational force where there is no mass, like, for example between ideas, or between sounds. I notice that the question offers no guidance as to what "non-matter" is.
Because the objects are tiny compared with the Earth, the comparative gravitational force is very small.
Answer The Universal Law of Gravitation states the gravitational force between any two objects of mass can be calculated with the equation F=G*(m_1*m_2)/r^2. As a result, increasing the mass of one or both objects increases the gravitational force. Increasing the distance between the two objects decreases the gravitational force. Notice the distance between them is squared so if you keep the masses the same and double the distance between them the gravitational force will decrease by four times.
Because both are neutral.
The gravitational force depends on the mass. With a larger mass, the force becomes greater. Also, it is in a certain sense a fairly weak force - for instance, two masses of one kilogram each, at a distance of one meter, have a mutual gravitational attraction of about 0.000000000067 newton.
There are two such forces:1) The electrical force occurs between two charged objects. When this force occurs between to point like objects, the following equation holds:F=Kq1q2/d^2, whereF is the electric forceK is a constant = 8.988*10^9q1 is the charge of one objectq2 is the charge of the second objectd is the distance between the objects2) The gravitational force occurs between two masses. If these two objects are point like the following equation holds:F=Gmm/d^2, whereF is the gravitational forceG is a constant = 6.673*10^-11m1 is the mass of one objectm2 is the mass of the second objectd is the distance between the objectsyou may notice two things about these fundamental forces:1) The electrical force is much stronger that the gravitational force. This is why the force of gravity is neglected when dealing with electric forces between subatomic particles, ions, and molecules.2) These two forces are very analogous. both forces are proportional to the product of a property of two objects (mass or charge) and to the inverse of the square of the distance between those particles.
Because of conditioning. I expect that you would soon notice it if the gravitational constant fell to zero and you were flung off into space! You do not notice atmospheric pressure for a similar reason.
Because we r not sensitive.lol
the gravational pull of your school desk is soo small that you cant feel it. even if it was something like a skyscraper or something huge your brain only notices a few of your sences in fact the human brain cuts off most sences after a while.
There are two such forces:1) The electrical force occurs between two charged objects. When this force occurs between to point like objects, the following equation holds:F=Kq1q2/d^2, whereF is the electric forceK is a constant = 8.988*10^9q1 is the charge of one objectq2 is the charge of the second objectd is the distance between the objects2) The gravitational force occurs between two masses. If these two objects are point like the following equation holds:F=Gmm/d^2, whereF is the gravitational forceG is a constant = 6.673*10^-11m1 is the mass of one objectm2 is the mass of the second objectd is the distance between the objectsyou may notice two things about these fundamental forces:1) The electrical force is much stronger that the gravitational force. This is why the force of gravity is neglected when dealing with electric forces between subatomic particles, ions, and molecules.2) These two forces are very analogous. both forces are proportional to the product of a property of two objects (mass or charge) and to the inverse of the square of the distance between those particles.
AAt
All objects have a gravitational pull on all the other objects. even your computer monitor has a slight amount of pull on you. The reason you don't notice them is that they are so insignificant that we can't even possibly detect the pull with the best technology. lets say that your computer monitor was 5 kg, you weighed 80 kg, and you were sitting 1 meter away. the force on you would by the computer would be 0.00000002668 newtons (that's really small). the earth has a noticeable force on us, but look how big it is! so any object with mass has a gravitational pull on any other object with mass, we just can't see or feel because it is so small.
Because every body no matter how small has mass. We don't notice the gravitational force between the people and things around us because the mass of the earth is so large in comparison.