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.
You can't - not enough information. Basically you need to divide the mass by the volume.
You need to know the component of displacement in the direction of the force. In the simplest model, Work = Force*Displacement (in the direction of the force). More complicated models will include friction, for which the mass of the object and the coefficient of resistance between the object and the surface are required. You could also include aerodynamic resistance at which stage the calculations get rather complex.
To find the resultant force you need to find both the x and y component of the resultant force. Once you have that, you can use the Pythagorean theorem to find the resultant force.
You can't, because you don't have enough information. In order to find velocity, you need to be able to find the speed and the direction of motion. You have the speed, but you have no information that you can use to determine the direction in which the object is moving. Mass doesn't help.
The simple answer to work done on an object is Force * distance. This only works if there was a constant force acting on the object. If the force changes, then you need to integrate the force function F(x)*dx, where x is the distance, and F(x) is the function that gives the force at position x.
Its shape and dimensions
An object which is moving doesn't need a force to keep it moving.
Yes you do. You need a force that always attracts the object toward the center of the circle. It's called a "centripetal force".
A force is not measured in kilograms. The kilogram is a unit of mass; forces are measured in newtons. You can get the force with Newton's Second Law. In this problem, you will need some additional information, specifically, the object's mass.
You would need some more information.
You'll find everything that you'd need to know at www.military.com.
the heavier and the bigger the object the more force you need to use to keep it moving . the less weight and the smaller an object is the less force you need to use to keep it moving. it always depends on the weight of the object and the size of the object.
Not necessarily. An object doesn't need a force to move, only to CHANGE its velocity. In empty space, an object can continue moving indefinitely without any force.
You can't - not enough information. Basically you need to divide the mass by the volume.
The force. Work=force x displacement Displacement=100m Work=? <----------------- if it's work your trying to find you need to force=? Know force and displacement. You know the Displacment, so force is missing.
Its easy....To balance force you need to apply an equivalent force in the opposite direction....Example:If a force of 20N acts on a body along the North, you should apply 20N along the south......simple.......
You need to know the component of displacement in the direction of the force. In the simplest model, Work = Force*Displacement (in the direction of the force). More complicated models will include friction, for which the mass of the object and the coefficient of resistance between the object and the surface are required. You could also include aerodynamic resistance at which stage the calculations get rather complex.