Anywhere on or near the surface of the earth, the gravitational force pulling the
earth and 1 kg of mass together is roughly 9.8 newtons (2.205 pounds).
In order to prevent the earth and the 1 kg mass from moving toward each other,
at least that amount of force or more must be exerted in the opposite direction.
The amount of force needed to pull a 1330 lb object will depend on the surface friction and the angle of the pull. However, the force required to overcome gravity (weight) alone would be approximately 1330 pounds.
The force needed to hold a 2 kg object would be equal to the force of gravity acting on the object at that particular location. This force is typically calculated using the formula: Force = mass x acceleration due to gravity, which is approximately 9.81 m/s^2 on the surface of Earth.
The force needed to lift a weight of 200N would be 200N. This is because the force needed to lift an object against gravity is equal to the weight of the object itself.
Jim will need to exert at least 25 N of force to overcome both gravity and friction and move the object. This is calculated by adding the force of gravity (15 N) and the force of friction (10 N).
To move a 5kg stone for 1km, you would need to overcome both the force of friction and the force required to lift the stone against gravity. The force needed would depend on the surface and incline. The total force required can be calculated using the work-energy principle.
The amount of force needed to pull a 1330 lb object will depend on the surface friction and the angle of the pull. However, the force required to overcome gravity (weight) alone would be approximately 1330 pounds.
You have to overcome the force of gravity. So, if you're in the space shuttle which weighs 240,000 pounds at liftoff, you have to have enough force to overcome that weight.
The force needed to hold a 2 kg object would be equal to the force of gravity acting on the object at that particular location. This force is typically calculated using the formula: Force = mass x acceleration due to gravity, which is approximately 9.81 m/s^2 on the surface of Earth.
The force needed to lift a weight of 200N would be 200N. This is because the force needed to lift an object against gravity is equal to the weight of the object itself.
Jim will need to exert at least 25 N of force to overcome both gravity and friction and move the object. This is calculated by adding the force of gravity (15 N) and the force of friction (10 N).
To move a 5kg stone for 1km, you would need to overcome both the force of friction and the force required to lift the stone against gravity. The force needed would depend on the surface and incline. The total force required can be calculated using the work-energy principle.
The force from when the person throws it acts on it in the air. The ball is also affected by gravity but the force from the person throwing it is so much that the ball can overcome gravity until the force runs out and it falls back to the ground.
To lift a 45 kg mass, you would need to apply a force equal to the gravitational force acting on the mass, which is approximately 441 Newtons (45 kg * 9.81 m/s^2). This force would need to be greater than the weight of the mass to overcome gravity and lift the object upward.
To calculate the force needed, you'll need to know the acceleration due to gravity (9.8 m/s^2) and the distance the box is being pushed. The force required can be determined using the equation: force = mass x acceleration. In this case, the force required to push a 10 kg box 5 meters on a horizontal surface would be the force needed to overcome friction, which depends on the coefficient of friction and any other external forces acting on the box.
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the strong nuclear force is much stronger than the force of gravity. Gravity is the weakest of the four fundamental forces, while the strong nuclear force holds atomic nuclei together and is much stronger than gravity on the atomic scale.
The force of gravity on Jupiter is much stronger than on Earth due to Jupiter's larger mass. Jupiter's gravity is about 2.5 times that of Earth.