Remember kinetic energy is the energy of motion.
Potential and kinetic energy biker.
As you work to get up the hill you gain potential energy.
There is not much potential energy at the bottom of the hill but there is a great amount of kinetic energy.
Take a classic example of a simple pendulum.
Picture yourself riding a bike up a hill resting for a bit and then coasting down the other side.
As long as it is moving at a constant velocity the potential energy will become zero.
For example when a bus speeds up going down a hill the potential energy of bus converts into k e.
The object will turn around where the total energy line and potential energy curve cross.
On the other hand potential energy is the stored energy because of its state of rest.
As the pendulum swings the suspended body moves higher and due to its position potential energy increases and reaches a maximum at the top.
The potential energy curve is a property of the object and whatever it s interacting with.
Kinetic energy is the energy of movement.
The law of conservation of energy states that energy cannot be destroyed but can only be transformed from one form into another.
Energy can only be converted from one form to another.
Interconversion of kinetic and potential energy.
While kinetic energy is the energy which an object contains because of a particular motion.
Energy is broadly classified as kinetic energy and potential energy.
As both the two forms of energy are measured in joules people get easily confused between these two.
Kinetic energy energy is the capacity of a system to do work according to taber s cyclopedic medical dictionary 19th ed all forms of energy are classified as either kinetic or potential energy or some combination of the two.
Energy can neither be created nor it can be destroyed.
The energy from your.
As you coast down the other side that potential energy is converted to kinetic energy.
Moving objects perform work by imparting movement to other matter.
If you start the object at a different location or with a different initial kinetic energy the total energy line can shift up or down.
When the biker is halfway up or down the hill kinetic energy and potential energy are equal.
The correct option is c as biker is on the downside of the hill that is where the kinetic energy is greatest.
The unit of energy is joules.
When the bus will reach the bottom of the hill the kinetic energy will become maximum.
Kinetic energy slowly decreases and at the same rate potential energy increases as the biker climb up the hill.
The work you originally did to get up the hill is the total amount of energy in the system.
When riding a bike potential energy comes from your body where you convert your stored energy into kinetic energy in the pedalling.
