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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.
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What objects have gravity?
All objects with mass have gravity, but larger objects typically have a stronger gravitational pull. This includes planets, stars, moons, and even smaller objects like people or cars. The strength of gravity depends on the mass of the object and the distance from it.
What objects have a gravitational attraction for other objects?
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.
Why will the lead weight and the feather land on the ground at the same time on the moon?
In a vacuum, where air resistance does not exist, objects of different masses will fall at the same rate due to gravity. This is because all objects are subject to the same gravitational acceleration. On the moon, with no atmosphere to create air resistance, both the lead weight and the feather will experience the same gravitational pull and fall at the same rate, leading them to land on the ground simultaneously.
Why all things fall down in the Earth?
Objects fall to the ground on Earth due to the gravitational force, which is the force of attraction between all objects with mass. This force pulls objects towards the center of the Earth, causing them to accelerate downwards until they reach the ground.
Why are objects on earth attracted o the earth but not to each other?
Objects on Earth are attracted to the Earth due to its massive gravitational pull, which is a result of its large mass. While all objects do exert gravitational forces on each other, these forces are usually negligible compared to the Earth's gravitational pull, especially for smaller objects. Therefore, the dominant force acting on them is the Earth's gravity, making them fall towards it rather than being significantly attracted to each other.
Do all objects on the earth have some kind of gravity?
All objects everywhere in the universe have a gravitational pull.
What objects will the earth exert a greater gravitational pull than on a bicycle?
The Earth will exert a greater gravitational pull on objects with greater mass, such as cars, buildings, and mountains, compared to a bicycle. This is because the force of gravity between two objects is directly proportional to the mass of the objects, so the more massive an object is, the stronger the gravitational pull it experiences.
What objects have gravity?
All objects with mass have gravity, but larger objects typically have a stronger gravitational pull. This includes planets, stars, moons, and even smaller objects like people or cars. The strength of gravity depends on the mass of the object and the distance from it.
What is the gravitational pull of the Uranus?
it is the same as earth's 9.8 m/seconds squared
What Objects all sitting on the ground together does Earth exert a greater gravitational pull than a pencil?
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.
Why the planets seemed to move at different speeds?
The gravitational pull of other objects in space affect all
What objects have a gravitational attraction for other objects?
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.
Describe what Galileo learned about falling objects that lead to an understanding of gravitational pull?
Galileo's experiments showed that all objects fall with the same acceleration regardless of their mass. This discovery led him to understand that objects fall towards Earth due to gravity, a force that attracts objects towards each other. Galileo's observations laid the foundation for the concept of gravitational pull.
How can the moon have a gravitational pull?
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.
If all objects have gravity why arent you pulled toward a large bulding when you tand near it?
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.
What part of the solar system exerts a gravitational pull?
Everything with mass ... i.e. ALL the objects of the solar system.
Does all mass has gravity?
Yes, all mass exerts a gravitational force on other objects. The strength of the gravitational force is directly related to the mass of the object - the more mass an object has, the stronger its gravitational pull.
