Chemical energy usually transforms to heat energy. Heat energy causes expansion of materials, producing kinetic energy. In some cases, chemical energy may cause a direct expansion of a material, producing movement (kinetic energy) but the heat stage is usually present. Gun powder, dynamite and gasoline all are chemical-heat-mechanical.
Chemical energy transforms to thermal energy when baking a cake.
Chemical energy transforms to kinetic energy which makes the car move.
Potential
As it drops from a height, the potential energy of the apple transforms into kinetic energy. Once it lands in the garbage, the kinetic energy gets dissipated as thermal energy. As the core begins to decompose, the chemical energy in it gradually transforms into other chemical energy with the release of thermal energy as a byproduct.
Heat energy (as steam or hot gas) transforms to kinetic energy through the turbine. The kinetic energy transforms into electricity through the rotor of the electric generator.
When a bus brakes to a stop, its kinetic energy transforms into heat energy due to friction between the brake pads and the wheels. This heat energy is dissipated into the surroundings.
In a standard vehicle, the braking system transforms the kinetic energy into heat energy through friction between the brake pads and the brake rotors. This heat dissipation slows down the vehicle by reducing its kinetic energy.
A chemical action or reaction is a process that transforms one chemical substance to a new substance.
The burning of a fuel transforms chemical energy into heat and light energy.
Chemical to radiant(light:)
kinetic
The potential energy of the ball (due to its position on the table) transforms into kinetic energy as it rolls off the table and falls. When the ball hits the floor, some of the kinetic energy transforms into elastic potential energy as the ball compresses and then rebounds. Finally, friction and air resistance gradually dissipate the ball's kinetic energy into thermal energy, causing it to stop.