f=gm1m2/r2
f=1002009.8/6*6
f=5444.444
Yes, Earth exerts a greater gravitational pull on objects sitting on the ground together compared to a single pencil. This is because the combined mass of all the objects on the ground is greater than the mass of the pencil, resulting in a stronger gravitational attraction between Earth and the objects.
Yes, there is a gravitational force between two students sitting in a classroom. However, the force is extremely small compared to other forces present in the classroom and is usually negligible for practical purposes.
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.
The gravitational force between Stephen and Andy is very small because they have much less mass than objects like Earth. This force is negligible compared to the effects of the Earth's gravity pulling them down, so they don't feel the gravitational force between each other.
When sitting in front of a computer, the gravitational force exerted on you by the computer is negligible compared to the gravitational force from larger masses, such as the Earth. The computer's mass is minuscule in comparison, so its gravitational pull on you is minimal. Essentially, while the computer does exert some gravitational force, it is so small that it has virtually no impact on you compared to the Earth's gravitational force.
Isaac Newton created many of the fundamental ideas of gravity and how it works. He came up with the idea of gravity when he was sitting in his chair and an apple fell. It basically says things with mass are attracted to other things with mass and its equations helped us find, very accurately, the orbits of the planets as well as many other things simply dealing with gravitational attraction.
Yes, the thrust on the rocket remains constant in the absence of gravitational force. Thrust is the force pushing the rocket forward, generated by the propulsion system. It is independent of gravitational force.
Yes, there is gravitational force between the two students. However, the force is extremely weak compared to other forces acting on them. This is why we cannot visibly see the effect of gravity between them.
YES!
by the gravitational pull
elephant truck A basketball Your hand a camel NOT A BIKE!
The masses of humans are quite small and thus the magnitude of gravitational force is also very small and negligible as compared to that shown by Earth. Thus, gravitational force exists between two people sitting close by but it is negligible and cannot be felt.