Upward motion on a roller coaster converts kinetic energy into potential energy. Downward motion converts potential energy into kinetic energy. Forward motion is a result of excess potential enegy converted into kinetic energy that cannot be expended while falling.
Energy. Potential energy is like stored energy: ready-to go. (a cart at the top of a roller coaster hill has a lot of potential energy) Kinetic energy is moving energy: in-motion. (when that cart goes speeding down the hill)
Motion.
The energy of motion is called kinetic energy.
There are several real-life examples that operate with Newton's law of motion. They include a roller coaster, a car crash, and a conveyor belt.
Kinematics and dynamics are the two branches of physics which deal with motion. your wrong dumba$$
The relationship between work and kinetic energy affects the motion of an object by showing that work done on an object can change its kinetic energy, which in turn affects its speed and motion. When work is done on an object, it can increase or decrease its kinetic energy, leading to changes in its motion.
Thermal energy is heat. Heat is associated with motion (like a roller coaster) because of friction. Friction slows down the speed of an object and changes some of its kinetic energy into heat.
The basic relationship for kinetic energy of a body is KE = ½ m v2. If the mass is in kg and the speed in metres/sec, the answer for the KE is in Joules.
Kinetic energy is the energy of an object due to its motion or path of movement, e.g. roller coaster.
The relationship between energy and force affects the motion of objects by determining how much work is done on the object. When a force acts on an object, it can transfer energy to the object, causing it to move. The amount of force applied and the distance over which it is applied determine the amount of energy transferred and the resulting motion of the object.
Electricity is a form of energy that can be converted into either potential energy, which is stored energy, or kinetic energy, which is energy of motion. The relationship between electricity and potential or kinetic energy is that electricity can be used to create or transfer these types of energy.
In a system, kinetic energy is the energy of motion, while potential energy is stored energy. The relationship between them is that as kinetic energy increases, potential energy decreases, and vice versa. This is because energy is constantly being converted between the two forms within the system.
A corkscrew on a roller coaster would have kinetic energy as it moves through the track, turning potential energy (stored energy due to its height) into kinetic energy (energy of motion).
The relationship between momentum and energy is that momentum is a measure of an object's motion, while energy is a measure of an object's ability to do work. In a closed system, momentum and energy are conserved, meaning they can be transferred between objects but the total amount remains constant.
The relationship between work and energy is that work is the transfer of energy from one object to another. When work is done on an object, energy is transferred to that object, causing a change in its state or motion. Energy is the ability to do work, and work is the process of transferring energy.
The graph of kinetic energy shows how the energy of an object changes as it moves. As the object's motion increases, its kinetic energy also increases, and vice versa. The relationship between the two is directly proportional, meaning that as one goes up, the other goes up as well.
The relationship between mass and kinetic energy is that kinetic energy increases with an increase in mass. This means that an object with more mass will have more kinetic energy when it is in motion compared to an object with less mass moving at the same speed.