Work = Force * Distance
Work = 2100 * 50
Work = 10500 J
is moved
Work is done when a force is applied to an object which moves in the direction of the force.
Work is said to be done, when force is applied on an object and the object displace in the direction of force. Work done is product of magnitude of force applied & displacement,So, W.D.(work done) = F*s(F denotes force applied & s denotes displacement)S.I. unit of force is 'Joule' (Nm)
Work = (force on an object) times (displacement of the object during the time the force is applied to it).
The force applied by a machine to overcome resistance due to gravity or friction is known as the applied force. Applied force is the amount of force needed to move an object against a resisting force, such as the force of gravity or friction. This force is usually measured in Newtons (N). When an object is stationary, the applied force is equal to the resisting force. When an object is moving, the applied force must be greater than the resisting force in order to maintain the object's motion. If the applied force is too small, the object will slow down and eventually stop. If the applied force is too great, the object may accelerate or move too quickly.In order to determine the applied force, the resisting force must first be calculated. This can be done by multiplying the mass of the object by the acceleration due to gravity. The resisting force due to friction can be calculated by multiplying the normal force of the object by the coefficient of friction between the object and the surface it is in contact with.
is moved
is moved
Work is done when a force is applied to an object which moves in the direction of the force.
Work is said to be done, when force is applied on an object and the object displace in the direction of force. Work done is product of magnitude of force applied & displacement,So, W.D.(work done) = F*s(F denotes force applied & s denotes displacement)S.I. unit of force is 'Joule' (Nm)
Work = (force on an object) times (displacement of the object during the time the force is applied to it).
Gravity is indeed a force, but only one out of many. magnetic, frictional, mechanical ... . When an ordinary force applied to an object, (me pushing my wheelbarrow) this would not be considered as being affected by gravity.
The force applied by a machine to overcome resistance due to gravity or friction is known as the applied force. Applied force is the amount of force needed to move an object against a resisting force, such as the force of gravity or friction. This force is usually measured in Newtons (N). When an object is stationary, the applied force is equal to the resisting force. When an object is moving, the applied force must be greater than the resisting force in order to maintain the object's motion. If the applied force is too small, the object will slow down and eventually stop. If the applied force is too great, the object may accelerate or move too quickly.In order to determine the applied force, the resisting force must first be calculated. This can be done by multiplying the mass of the object by the acceleration due to gravity. The resisting force due to friction can be calculated by multiplying the normal force of the object by the coefficient of friction between the object and the surface it is in contact with.
Work can be completed in three different situations: when force is present, when force is applied to a particular object, and when the force applied occurs in a parallel motion.
The equation to calculate the work done is: Work done (J) = force applied (n) x distance moved of force (m)
true!
If he object moves as a force is applied and the direction of the objects motion is the same as the direction of the same force.
Work is done when an object moves in the direction in which a force is applied to it. So the factors are the magnitude and direction of the applied force and the factors which affect the object's motion. The latter will include the mass of the object and friction (including drag).