It is chemical to kinetic energy.
hi muscles perform Potential->Kinetic->heat potential- energy that can be used and is stored for use kinetic - movement heat- a prime factor of any kinetic relative glad to help Jordan
When walking, the potential energy stored in your body is transformed into kinetic energy as you move. Your muscles contract, converting chemical energy from food into mechanical energy for movement. Additionally, some energy is also transformed into heat as a byproduct of muscle activity.
there is not transformation of energy it is kinetic energy
The energy transformation of a hamburger involves converting the chemical energy stored in the food into mechanical energy when it is consumed and used by the body for various bodily functions such as movement, digestion, and metabolism.
The form of energy involved in speaking is primarily mechanical energy, generated by the movement of muscles in the vocal cords, throat, and mouth. This energy is converted into sound energy, which is then transmitted as sound waves through the air to carry the voice.
Mitochondria and chloroplasts are involved in energy tranformation. animal cells: mitochondria plant cells: mitochondria and chloroplasts
Movement is when your move your body with your muscles. You are using kinetic energy to control the movement in your body.
When you are walking, your body converts stored chemical energy from the food you eat into kinetic energy as you move your muscles to propel you forward. This involves a transformation from potential energy to kinetic energy as your body changes position.
You are using chemical energy produced in your muscles to lift a weight against gravity, which means the weight gains gravitational potential energy
Yes, mechanical energy is transferred when a basketball player shoots. The player converts chemical energy into kinetic energy to propel the ball into the air. The potential energy stored in the player's muscles is also transferred into the ball's kinetic energy as it leaves the player's hands.
Breathing uses mechanical energy to move the muscles involved in the expansion and contraction of the lungs. This movement allows the exchange of oxygen and carbon dioxide to occur during respiration.