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How much force to apply to a piston with an area of 10 cm2 to lift an object weighing 200n on a piston with an area of 50 cm2?
Wiki User
∙ 12y ago
400 N
400 N / 10cm2 = 2000 N / 50cm2
Wiki User
∙ 12y ago
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How much force to apply to a piston with an area of 10 cm2 to lift an object weithing 2000n on a piston with an area of 50cm2?
400 N 400 N / 10cm2 = 2000 N / 50cm2
Why cant we use a rectangular piston where in the edges are chamfered?
If you mean in a car engine, it's because an explosion (even a controlled one of the gasoline/petrol being ignited by a spark plug) creates a spherical force. So, the cylindrical piston is the same shape as the explosion, and gets the most efficient pressure distribution. A rectangular piston would get force in the middle, but not the edges, and it would take more force to do the same job. Also, the rectangular piston would wear down faster because of the uneven force being applied.
If a force acts on an object but does not touch it the force is called force?
Yes. The definition of a force is a push or a pull. So, as long as the object moves, a force has indeed acted upon it.
When object A exerts a force on object B object B?
object B moves
What information do i need to find the force of an object?
An object, in itself, does not have any force. It can exert a force on another object, such as gravitational or electro-magnetic attraction or repulsion, or from impact. However, in all such cases, you require two (or more) objects: one object, in isolation, exerts no force.
If the area of piston 1 is half the area of piston 2 does it require half the newtons of force to lift an object?
No, the force required to lift an object is not directly proportional to the area of the piston. If the area of piston 1 is half the area of piston 2, it would not require half the force to lift an object. Force is dependent on pressure, which is equal to force divided by area.
How much force to apply to a piston with an area of 10 cm2 to lift an object weithing 2000n on a piston with an area of 50cm2?
400 N 400 N / 10cm2 = 2000 N / 50cm2
How do you produce the motion of an object?
Motion of an object can be produced by applying a force to it. According to Newton's laws of motion, an object will remain at rest or in uniform motion unless acted upon by an external force. By applying a force in the direction you want the object to move, you can produce its motion.
When you push against an object the force you apply is called?
When you push against an object, the force you apply is called the applied force. This force is the external force exerted on the object by you pushing against it.
How much force would you need to exert on the small piston if the object weighed 20000 N?
If the small piston has a surface area that is one-tenth of the large piston, the force required would be 2000 N to lift the object weighing 20000 N. This is due to the principle of Pascal's Law where pressure is equal throughout a closed system with connected fluid-filled chambers.
What is needed to apply a force?
To apply a force, you need an object to apply the force on and a source of the force, such as a person, machine, or any other external agent. The force is typically exerted by pushing or pulling on the object in a certain direction.
How does fluid apply force on a object?
Adesive force.
What is the smallest upthrust force needed so that and object weighing 1600 N will float?
The smallest upthrust force needed for an object to float is equal to its weight. So, for an object weighing 1600 N to float, the upthrust force needs to be at least 1600 N. This is because the upthrust force is equal to the weight of the fluid displaced by the object, which in this case is equivalent to the weight of the object.
What are the two ways you can apply a force to an object?
You can apply a force to an object by pushing or pulling it. Pushing involves applying a force away from your body, while pulling involves applying a force towards your body.
How can you change the acceleration of an object?
Apply some force to the object.
How can you increase the force a hydraulic device produces without increasing the size of the force you apply to the small piston?
You reduce the diameter of the small piston. Or reduce the diameter and increase the travel of the small piston if you want the large piston to maintain it's previous range of travel.
How can you keep an object the same if the force acting on the object were doubled?
The object will remain the same regardless of the amount of force you apply on it.
