nrc_8706 said:a 2.47kg block is pushed 1.7m up a vertical wall with constant speed by a constant force of magnitude F applied at an angle of 63.3 with the horizontal. acceleration of gravity is 9.8m/s^2
if the coefficient of kinetic friction between the block and wall is 0.553, find the work done by F.
sum of all forces on the x-axis=0 sum of all forces on the y-axis=,a
N=-Fsin(angle) Fcos(angle)-mg-Friction force=ma
CORRECT?
Mechanical energy refers to the energy that an object possesses due to its motion or position. It can be divided into two types: kinetic energy, which is the energy an object has due to its motion, and potential energy, which is the energy an object has due to its position or shape.
In the context of mechanical energy, "A to B" refers to a change in the energy state of an object from point A to point B. This could involve a change in the object's position, velocity, or shape.
Mechanical energy is calculated by adding the kinetic energy and potential energy of an object. The formula for mechanical energy is ME = KE + PE, where ME is mechanical energy, KE is kinetic energy, and PE is potential energy.
The numbers in "Forces -70J/+50J" represent the amount of work done on an object by external forces. A negative number indicates that the force is acting against the direction of motion, while a positive number indicates that the force is acting in the same direction as the motion.
According to the law of conservation of energy, mechanical energy is conserved in a closed system. This means that the total amount of mechanical energy in a system remains constant, even if it changes form or is transferred between objects within the system. This principle is often used to analyze the motion of objects in the absence of external forces.