im not sure if the cells actually store enery with this list or if they store chemicals used to create energy but this is what ive got
golgiaparatus prepares and stores chemicals produced in the cell and secretes them out the cell
lysomes hold enzymes used for digestion of substances with in the cell
mitochondria produces cellular energy by cellular respiration to fuel the cells activitys
endoplasmic recticulum moves lipids and proteins from the nucleus to the cell membrane
cytoplasm is the manufacturing area that doubles as storing area
ATP (adenosine triphosphate) is an example of chemical potential energy because it stores energy in its phosphate bonds. When these bonds are broken during cellular processes, such as metabolism, the stored energy is released and used by the cell to fuel various activities.
Energy stored in rocks as a change in shape is known as elastic potential energy. When stress is applied to the rock, it deforms and stores potential energy until it is released, causing the rock to return to its original shape. This energy can be released suddenly, resulting in events like earthquakes.
If cells do not have immediate energy needs, they can convert glucose to glycogen for storage in the liver and muscles until it is needed. This stored glycogen can be broken down into glucose when the cells require energy.
The primary product of photosynthesis is glucose, a type of sugar. This glucose is used by plants as an energy source for growth and maintenance.
The force that adds potential energy to a rock until the rock changes is gravity. As the rock is lifted against the force of gravity, potential energy is stored in the rock. Once the rock falls or is released, this potential energy is converted into kinetic energy, causing the rock to change position or state.
Mitochondria
It is in movement
ATP (adenosine triphosphate) is an example of chemical potential energy because it stores energy in its phosphate bonds. When these bonds are broken during cellular processes, such as metabolism, the stored energy is released and used by the cell to fuel various activities.
The type of energy that is stored in food is called chemical potential energy.. This energy is stored until it is ready to be used.
Stored energy can be converted into other forms of energy, such as kinetic energy for movement, thermal energy for heating, or electrical energy for powering devices. It can also be released as light energy or sound energy. Ultimately, stored energy is constantly being transferred or transformed into different forms as it is used.
Energy stored in rocks as a change in shape is known as elastic potential energy. When stress is applied to the rock, it deforms and stores potential energy until it is released, causing the rock to return to its original shape. This energy can be released suddenly, resulting in events like earthquakes.
If cells do not have immediate energy needs, they can convert glucose to glycogen for storage in the liver and muscles until it is needed. This stored glycogen can be broken down into glucose when the cells require energy.
Mitochondria
"Stored" is another form of potential energy. You can burn the food to release the potential energy. It is potential, because the food is not a source of kinetic energy until it is in a food fight.
When we eat food, it goes to our stomachs, then to our small intestine, then to the large intestine, in our small intestines, we have little rubbery things called villi. What those villi do is they absorb the nutrients and energy from food passing by. So the energy is stored in the food until the villi get a chance to absorb it into the bloodstream.
Kinetic energy is the energy of motion. Kinetic energy is stored in an object when you apply force to it, lifting it, for example. That energy stays in the object as potential energy until it is released when you drop the object.
When a stretched string is released, the potential energy stored in the string is converted into kinetic energy as the string vibrates. This kinetic energy causes the string to oscillate back and forth until the energy is dissipated as sound waves.