Compared to you, yes.
No, the gravitational force experienced by an object is determined by its mass and the mass of the Earth, not its size. Both an elephant and a mouse feel the same gravitational pull towards the Earth.
The gravitational attraction of an apple on Earth is approximately 1 Newton, which is equivalent to the weight of the apple. This force is a result of the gravitational pull between the apple and Earth.
The box with 15 baseballs has a stronger gravitational attraction towards the Earth because it has more mass. The gravitational force between two objects is directly proportional to their masses, so the box with more baseballs will experience a stronger pull towards the Earth.
You can increase the gravitational potential energy between yourself and the Earth by increasing your height above the Earth's surface. This is because gravitational potential energy depends on the distance between two objects. By moving to a higher position, you are increasing the distance between yourself and the Earth, thus increasing the gravitational potential energy.
An elephant would weigh less on the moon compared to Earth because the moon has less gravitational pull. The weight of an object is determined by the gravitational force acting on it, so lower gravity on the moon means less weight for the elephant.
The gravitational force between an object and the Earth depends on their masses. Since an elephant has a much greater mass than a human, the gravitational force between the elephant and the Earth is stronger than that between you and the Earth. Therefore, the elephant experiences a stronger gravitational pull from the Earth compared to you.
The law of gravity says the force experienced is proportional to the product of the two masses and inversely proportional to the square of the distance between them. Effectively on earth the measurement of the force of gravity on a mass is the weight of the mass. As an Elephant has more mass than a Cat, it weighs more than the Cat (because the mass of the Earth is constant).
No, the gravitational force experienced by an object is determined by its mass and the mass of the Earth, not its size. Both an elephant and a mouse feel the same gravitational pull towards the Earth.
An elephant weighs less on the moon than on Earth due to the difference in gravitational pull between the two celestial bodies. The moon's gravity is about 1/6th that of Earth's, meaning that objects, including elephants, experience less gravitational force and therefore weigh less. While the mass of the elephant remains constant, its weight is affected by the gravitational acceleration acting on it. Thus, an elephant would weigh significantly less on the moon compared to its weight on Earth.
An elephant would weigh less on the moon due to the moon's weaker gravitational pull compared to Earth. The weight of an object depends on the gravitational pull acting upon it, so on the moon an elephant would experience less gravitational force and therefore weigh less.
The gravitational force between the Earth and sun certainly depends on the distance between the Earth and sun. But the gravitational force between, for example, the Earth and me does not.
The distances between each animal and the center of the Earth are essentially identical, but the elephant has more mass than the cat. So, when the appropriate numbers for each are entered into the the formula for the gravitational forces of attraction according to Newton's universal law, the force expected in the case of the elephant will be found to be greater than the force expected to act on the cat, by the same ratio as that of the elephant's mass to the cat's mass.
Earth has gravity or gravitational force that attracts the moon to the Earth.
yes
The gravitational force (or attraction) between any two objects increases as the distance between them decreases. Thus, as an asteroid approaches Earth, the Earth's gravitational pull will increase as it gets nearer.
The gravitational pull between earth and the spacecraft will become insignificant.
Yes, the forces between Earth and the Moon follow Newton's third law. The Earth exerts a gravitational force on the Moon, and in return, the Moon exerts an equal but opposite gravitational force on the Earth.