If a non-conservative force acts on an object, 1.the mechanical energy of the object is conserved...

1- If the net force acting on a system is conservative, for example the gravitational force,...

1- If the net force acting on a system is conservative, for example the gravitational force, the mechanical energy (kinetic energy + potential energy) is conserved. Give an example of such a system in which the behavior can be explained by this principle.

We know that there is a relationship between work and mechanical energy change. Whenever work is...

We know that there is a relationship between work and mechanical energy change. Whenever work is done upon an object by an external force (or non-conservative force), there will be a change in the total mechanical energy of the object. If only internal forces are doing work then there is no change in the total amount of mechanical energy. The total mechanical energy is said to be conserved. Think of a real-life situation where we make use of this conservation...

A single conservative force acts on a 5.00 kg particle. The equation Fx = (2x +...

A single conservative force acts on a 5.00 kg particle. The equation Fx = (2x + 4) N describes this force, where x is in meters. As the particle moves along the x axis from x = 3.00 m to x = 7.00 m, calculate the following. (a) the work done by this force on the particle J (b) the change in the potential energy of the system J (c) the kinetic energy the particle has at x = 7.00...

Are the following true or false? Please explain why. 1. an object undergoing projectile motion always...

Are the following true or false? Please explain why. 1. an object undergoing projectile motion always has kinetic energy. 2. A static friction force always oppose the direction of motion of the body that it acts on. 3. When a body is moving in uniform circular motion, it has a constant kinetic energy. 4. Energy is neither created, nor destroyed, it is only transformed; unless a non-conservative force acts on the body. 5. A body with mass always experiences a...

It is possible to define a potential energy only for a conservative force, but not for...

It is possible to define a potential energy only for a conservative force, but not for a non-conservative force. In a few sentences, please explain why this is.

Positive non-conservative work | Problem In a system where positive non-conservative work is being down on...

Positive non-conservative work | Problem In a system where positive non-conservative work is being down on the system, which of the following statements are necessarily true? If the kinetic energy is decreasing, the potential energy must be increasing by the same amount. If the kinetic energy is decreasing, the potential energy must be increasing by a larger amount. If the kinetic energy is increasing, the potential energy must be decreasing. If the kinetic energy is constant, the potential energy must...

In the demonstrations of eddy current, it involve s non-conservation of mechanical energy. such as: (1)...

In the demonstrations of eddy current, it involve s non-conservation of mechanical energy. such as: (1) large magnet slowing down to a stop at the end of a short drop, before hitting the copper plate (loss of kinetic energy), (2) a magnet moving downward at a constant velocity (loss of potential energy), or (3) a pendulum slowing down to a stop (loss of total mechanical energy). These mechanical energies are likely being lost to heat; explain the mechanism by which...

In the demonstrations of eddy current, it involve s non-conservation of mechanical energy. such as: (1)...

In the demonstrations of eddy current, it involve s non-conservation of mechanical energy. such as: (1) large magnet slowing down to a stop at the end of a short drop, before hitting the copper plate (loss of kinetic energy), (2) a magnet moving downward at a constant velocity (loss of potential energy), or (3) a pendulum slowing down to a stop (loss of total mechanical energy). These mechanical energies are likely being lost to heat; explain the mechanism by which...

Problem solving with mechanical energy conservation If mechanical energy is conserved, it gives us an equation...

Problem solving with mechanical energy conservation If mechanical energy is conserved, it gives us an equation that can be helpful in solving problems. The Sidewinder is a simple roller coaster at Elitch Gardens in Denver, CO. The coaster goes down a hill, around a loop, and back up a hill. It stops and then doubles back, taking riders backwards through the loop again. Normally a roller coaster has to start much higher than the top of the loop to ensure...

As an object moves from point A to point B only two forces act on it:...

As an object moves from point A to point B only two forces act on it: one force is nonconservative and does –40 J of work, the other force is conservative and does +60 J of work. Between A and B, Select one: the potential energy of object increases, mechanical energy decreases. the potential energy of object decreases, mechanical energy increases. the potential energy of object increases, mechanical energy increases the potential energy of object decreases, mechanical energy decreases.