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It depends on how great the force is acting against the newtons.
495 n
495 n
It is 495 Newtons.
Multiply the mass (in kilograms) by the gravity (on Earth, this is about 9.8 meters/second2)
If we have a force acting on a body and we know what that force is, and we also know that the force is gravity, we can solve because we know the force gravity exerts on a mass. If we take the total force acting on the body and divide it by the force of gravity per one unit of mass, we can find the number of units of mass that cause gravity to act on the object. We have 1033 Newtons of force acting on the object. Gravity pulls down with a force of 9.8 Newtons on 1 kilogram of mass. Our 1033 Newtons divided by 9.8 Newtons per kilogram = 105.41 kilograms
The measure of a force acting on a body is the mass of the body multiplied by its acceleration in the direction of the applied force.
It depends on how great the force is acting against the newtons.
Weight in Newtons.
495 n
495 n
It is 495 Newtons.
It is 495 Newtons.
Multiply the mass (in kilograms) by the gravity (on Earth, this is about 9.8 meters/second2)
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
The key here is that you're standing on levelground. You should recall the basic principle that net forces change motion. Since your motion is not changing relative to the earth (You're standing still), there must be no net force acting on you. In other words, all forces acting on you must cancel out. If you weigh 100 kilograms, then the downward force of gravity is equal to 980 Newtons in the downward direction. If the only other force acting on you is the normal force, then to cancel out the gravitational force, the normal force must be equal and opposite, or 980 Newtons in the upward direction.