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No. The gravity of an object is directly proportional to its mass, meaning if you double the mass you double the gravity. Earth has more mass than a car does by an unimaginably large margin.
Common sense also says no. Objects very readily fall toward Earth. They do not readily fall toward cars.
What else can I help you with?
Why is the force of gravity between you and earth greater than the force of gravity between you and a car?
The force of gravity between two objects is determined by their masses and the distance between them. The Earth has a much greater mass than a car, so the force of gravity between you and Earth is greater. Additionally, your distance from the center of the Earth is much smaller compared to your distance from a car, further contributing to the difference in gravitational force.
Why is the force of gravity between you and earth is greater than the force of gravity between you and a car?
The force of gravity between two objects depends on their masses and the distance between them. The mass of the Earth is much larger than the mass of a car, resulting in a stronger gravitational pull between you and the Earth compared to you and a car. Additionally, the distance between you and the Earth's center is much smaller than the distance between you and a car, further contributing to the greater force of gravity between you and the Earth.
How does gravity slow down a car?
Gravity itself does not slow things down (the Moon still keeps going round the Earth and the Earth still keeps going round the Sun). It's friction that slows things down. I have to say that there is likely to be more friction if there's more gravity but that's a secondary effect.
How does the size of how does the size of the force exerted by earths gravity on a car compare with the size of the force the car exerts on earth?
The force exerted by Earth's gravity on a car is equal in size (magnitude) to the force the car exerts on Earth. This is described by Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
How does the size of the force exerted by earth's gravity on a car compare with the size of the car exerts on earth?
The magnitude of the force is exactly the same (Newton's Third Law).
Why is the force of gravity between you and earth greater than the force of gravity between you and a car?
The force of gravity between two objects is determined by their masses and the distance between them. The Earth has a much greater mass than a car, so the force of gravity between you and Earth is greater. Additionally, your distance from the center of the Earth is much smaller compared to your distance from a car, further contributing to the difference in gravitational force.
Why is the force of gravity between you and earth is greater than the force of gravity between you and a car?
The force of gravity between two objects depends on their masses and the distance between them. The mass of the Earth is much larger than the mass of a car, resulting in a stronger gravitational pull between you and the Earth compared to you and a car. Additionally, the distance between you and the Earth's center is much smaller than the distance between you and a car, further contributing to the greater force of gravity between you and the Earth.
How does gravity slow down a car?
Gravity itself does not slow things down (the Moon still keeps going round the Earth and the Earth still keeps going round the Sun). It's friction that slows things down. I have to say that there is likely to be more friction if there's more gravity but that's a secondary effect.
Which force is responsible when a ripe fruit falls from a tree?
Of course, the gravitational pull of the earth is the prime factor here. The apple is being pulled to the centre of the earth, but in most cases is blocked by something .Example, the ground. Gravity is pulling everything toward it, but depending on how heavy it is determines how much force that gravity has over the object. For example: Gravity has more control over a car than a helium balloon, because the heavier the object, the more gravitational pull it conducts.
Does the moon have enough gravity to hold a modern car?
Yes, the moon's gravity is about 1/6th of Earth's gravity, which is enough to hold a modern car. However, the weight of the car would be significantly reduced on the moon compared to Earth.
How does the size of how does the size of the force exerted by earths gravity on a car compare with the size of the force the car exerts on earth?
The force exerted by Earth's gravity on a car is equal in size (magnitude) to the force the car exerts on Earth. This is described by Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
How does the strength of gravitational force on earth differ between a mountain and a car?
The strength of gravitational force on Earth is essentially the same at both a mountain and a car. However, the force can be slightly weaker at higher altitudes due to the increased distance from the center of the Earth, as described by the inverse square law. Therefore, the difference in gravitational force between a mountain and a car is minimal and often negligible in everyday scenarios.
How does the size of the force exerted by earth's gravity on a car compare with the size of the car exerts on earth?
The magnitude of the force is exactly the same (Newton's Third Law).
How does the size of the force exerted by Earth's gravity on a car compare with the force the car exerts on Earth?
The magnitude of the force is exactly the same (Newton's Third Law).
Why would a car be going slower driving uphill?
Gravity is trying to push the car down the hill. It takes more power to overcome that push of gravity. Unless you give the car more gas it will slow down.
How does gravity affect a car?
Gravity affects a car by providing the downward force that keeps it grounded on the road. Gravity also affects the car's acceleration, as it determines the rate at which the car gains speed when going downhill and loses speed when going uphill. Additionally, gravity influences the car's fuel efficiency, as it requires more energy to overcome gravity when driving uphill.
What is the weight of a 870 kg car with the presence of gravity?
The weight of a 870 kg car in the presence of gravity would be the mass multiplied by the acceleration due to gravity. On Earth, with a gravity of approximately 9.81 m/s^2, the weight of the car would be 870 kg * 9.81 m/s^2 = 8538.7 N.
