Generally, yes it is. However, if you take topographical variations into consideration, gravitational strength may increase or decrease (at an immeasurable amount) depending where you are located geographically.
The acceleration due to gravity is taken as a constant (9.81 m/s2). This constant is acceptable at the earths surface, but the actual acceleration is a function of the distance from the center of the earth. Gravitational pull implies force which is a function of acceleration and mass (F=ma). So, no gravitational pull is not the same on all objects.
No. the pull on Venus' surface due to gravity is higher, since Venus is more massive than Mars. The pull on Venus is about 90% of what it is on earth, while on Mars the pull is only around 38% of what it is on Earth.
The gravitational pull of the earth forms the centripetal force responsible moving satellites in orbit, gravitational force equals centripetal force numerically.
No, gravity proves the existence of mass.
No. The gravitational force between any two objects depends on the product of the masses of both objects. Hint: That's why it's possible for two people on Earth to have different weights.
the rule of gravity is the greater mass a planet is the stronger its gravitational pull is so the suns mass is so heavy that its gravitational pull is so strong it keeps all the planets in line
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.
All the ones that have mass.
Because of gravity and all the pull (gravitational pull).
All objects everywhere in the universe have a gravitational pull.
No, the pull is essentially the same on all objects at the surface of the earth.
It is the same as any other thing on earth. Earth's gravitational pull is the same for all mass. If it is not on Earth, then it is the same as the gravitational pull where it is located.
all objects have a gravitational pull the bigger the object the bigger the gravitational pull that is why the moon revolves around the earth and the earth rotates around the sun
The gravitational pull of other objects in space affect all
No. The gravitational force between any two objects depends on the product of the masses of both objects. Hint: That's why it's possible for two people on Earth to have different weights.
All objects, big and small, exert gravitational pull. The moon, being very large, produces a large enough pull to affect the nearby Earth. The Earth also has a gravitational pull which holds the moon in orbit around us and keeps everyone on the ground.
The gravitational pull between two objects depends on the mass of those objects and on their distance from one another. A large building isn't nearly large enough to create the gravitational pull to draw you towards it.
Everything with mass ... i.e. ALL the objects of the solar system.
They all have the same gravitational potential energies.
it is the same as earth's 9.8 m/seconds squared
All materials with mass exert a gravitational pull.