what is the principal of conservation of mechanical energy?

(a) state the principal of the conservation of mechanical energy. (b) Tarzan and Jane , whose...

(a) state the principal of the conservation of mechanical energy. (b) Tarzan and Jane , whose total mass is 150 kg, start their swing on a vine 5.0 m long such that the vine is initially at an angle of 30 deg below the horizontal. At the bottom of the arc, Tarzan releases Jane, whose mass is 50 kg, with zero kinetic energy. What is the maximum height of the tree branch above the bottom of the arc that Tarzan...

Your book makes a distinction between "The Conservation of Mechanical Energy" and "The Conservation of Energy."...

Your book makes a distinction between "The Conservation of Mechanical Energy" and "The Conservation of Energy." How would you explain this distinction to a smart 10 year old?

Show in detail how the statement of conservation of mechanical energy derives from the work energy...

Show in detail how the statement of conservation of mechanical energy derives from the work energy theorem and the definition of a potential function. (asking for summrized clear answer)

Can you apply conservation of mechanical energy in real situations? If not, why not? Explain

Can you apply conservation of mechanical energy in real situations? If not, why not? Explain

Using the conservation theorem of mechanical energy, perform: A ball of 18,2 kg is fired from...

Using the conservation theorem of mechanical energy, perform: A ball of 18,2 kg is fired from a cannon located on level ground, with initial speed of 181 m/s at an angle of 43 ° to the horizontal (neglecting the size of the weapon). Based on the above information A. Applying the kinematic theory of the parabolic shot, determine the speed of the ball at the point of maximum height of the parabolic trajectory it describes. B. Applying the conservation of...

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...

Present a problem situation in real life, where you need to use Conservation of Mechanical Energy,...

Present a problem situation in real life, where you need to use Conservation of Mechanical Energy, Conservation of linear or two-dimensional momentum, and Conservation of angular momentum. I only need a problem that will use all three to solve it, not a problem for each one. ​​​​​​​ Show detailed design of the situation, where it includes all physical variables contemplated. Shows the calculations that highlight the issues requested for the problem

A group of students perform the same "Conservation of Mechanical Energy" experiment that you performed in...

A group of students perform the same "Conservation of Mechanical Energy" experiment that you performed in lab by allowing a solid sphere and then a solid cylinder to roll down the ramp. Both objects were released from the same position at the top of the ramp. If the speed vsphere of the solid sphere at the bottom of the ramp was 1.45 m/s, what would be the speed vcylinder at the bottom of the ramp?