0
What else can I help you with?
What is the input energy in falling rocks?
The input energy in falling rocks comes from the gravitational potential energy stored in the rocks when they are at a higher elevation. As the rocks fall, this potential energy is converted into kinetic energy, which is the energy of motion.
What doesn't require energy?
Processes such as gravity, diffusion, and osmosis do not require energy input to occur. Additionally, objects at rest do not require energy to maintain their state.
What is the input and output energy of a pendulum?
The input energy of a pendulum is the potential energy when it is lifted to a certain height, and the output energy is the kinetic energy when it is swinging back and forth. The total mechanical energy of the system remains constant, with potential energy converting to kinetic energy and vice versa during the pendulum's motion.
What is input the form of energy of candle?
The input form of energy for a candle is chemical potential energy stored in the wax and wick. When the candle is lit, this chemical energy is converted into heat and light energy through the process of combustion.
Does vaporizing require an input or energy?
Yes, vaporizing requires an input of energy to heat the substance to its vaporization point. This energy causes the substance to change from a solid or liquid state to a vapor or gas state.
Facilitated diffusion requires the use of cellular energy ATP expenditure?
No, facilitated diffusion does not require the use of cellular energy (ATP). It relies on membrane transport proteins to help move molecules across the cell membrane with the concentration gradient, without needing energy input from the cell.
What term for reactions that require energy input?
Endothermic reactions require energy input to occur. The energy needed is absorbed from the surroundings, resulting in a decrease in temperature during the reaction.
Active transport requires the input of cellular energy in the form of?
ATP
What is the input energy in falling rocks?
The input energy in falling rocks comes from the gravitational potential energy stored in the rocks when they are at a higher elevation. As the rocks fall, this potential energy is converted into kinetic energy, which is the energy of motion.
Does raising the temperature require an input of energy?
Yes.
Which process in the human body does not require energy input from respiration?
Diffusion is a body process that does not require energy from respiration.
What doesn't require energy?
Processes such as gravity, diffusion, and osmosis do not require energy input to occur. Additionally, objects at rest do not require energy to maintain their state.
Process of vaporization require an input of energy?
Yes, the process of vaporization does require an input of energy. The energy is required to break the intermolecular forces of a given substance. The intermolecular forces is usually very strong.
Is there a generator out there that doesnt require any input energy?
no there must at least be an initial input to get it started.
What are two types of cellular transport that do not require energy?
Passive transport never requires energy - hence the name passive. Active transport requires the input of energy. Two types of active transport are; primary (using pumps) and secondary (using anti or symports).
Cellular respiration is an anabolic process?
Cellular respiration is a catabolic process that breaks down glucose molecules to release energy in the form of ATP. It involves a series of reactions that occur in the mitochondria of cells. Anabolic processes, on the other hand, involve the building of molecules and require energy input.
Is it true or false that all chemical reactions require an initial input of energy called catalysis?
False. Not all chemical reactions require catalysis. Some reactions occur spontaneously, while others may require an initial input of energy in the form of activation energy. Catalysis is a process that lowers the activation energy required for a reaction to occur, but it is not necessary for all reactions.
