The only identical feature shared by gravity and mass is the letter 'a' .
The only other possible respect in which they are at all similar is the
fact that they both arise during the discussion of the law and effects
of gravity.
Gravity refers to a force of attraction between the mass of two objects and the distance from the center of masses.If Objects A&B have the same mass, and C&D have the same mass.And if the distance between the centers of mass from A to C is the same as from B to D.Then the force of attraction between the objects due to gravity would be the same no matter what the composition is.
no gravity is a force mass is the same as weight
Mass. Weight is different depending on gravity, but mass is always the same. On the Moon an astronaut weighs less, but has the same mass that they have on Earth.
Mass will basically remain the same. As a reminder, weight = mass x gravity.
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
Gravity refers to a force of attraction between the mass of two objects and the distance from the center of masses.If Objects A&B have the same mass, and C&D have the same mass.And if the distance between the centers of mass from A to C is the same as from B to D.Then the force of attraction between the objects due to gravity would be the same no matter what the composition is.
no gravity is a force mass is the same as weight
Mass is constant. You have the same amount of mass wherever you are in the Universe. Weight is the affect of gravity acting on your mass. So you weigh 1/6th as much on the Moon because there is less gravity there but you have the same amount of mass as you do on Earth.
no we don't because you can tell the difference between them.
IF you test that force with the same test object, and IF you place the testobject exactly the same distance from the center each time, THEN the mutualforce of gravity between the test object and the 23.5 kg mass will be 1.6 timesas strong as the mutual force of gravity between it and the 14.7 kg mass.
Mass. Weight is different depending on gravity, but mass is always the same. On the Moon an astronaut weighs less, but has the same mass that they have on Earth.
Mass will basically remain the same. As a reminder, weight = mass x gravity.
weight = mass x gravity
Weight = Mass x Gravity
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
The center of mass is a geometrical measurement not considering the weight distribution. The center of gravity is one location on a particular mass structure where the distribution of weight is the same no matter the direction of the measurement as it pertains to that one particular mass structure.
Gravity is the force of attraction between all masses in the universe.The magnitude of a gravitational force depends onthe masses of the objectsthe distance between the objectsThe gravitational force between two bodies increases as their masses increase.