walking ,riding your bike,non electric scooter, skate board,
The cellular process that requires energy to transport molecules out of the cell is called exocytosis.
Active transport requires energy to move a molecule.
Active transport requires assistance from membrane proteins. These proteins, such as ion pumps and carrier proteins, help move molecules against their concentration gradient, requiring energy input to drive the process.
Active transport requires energy to move a molecule.
The contractile vacuole collects water, then pumps it out of the cell. It requires energy to be expended, so it is a type of active transport.
The cellular process that requires energy to transport molecules out of the cell is called exocytosis.
facilated diffusion cause when yer active you use energy
Active transport requires energy to move a molecule.
Active transport requires assistance from membrane proteins. These proteins, such as ion pumps and carrier proteins, help move molecules against their concentration gradient, requiring energy input to drive the process.
That is the glycolysis. It requires two ATP
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Active transport requires energy in the form of ATP (adenosine triphosphate) to move substances against their concentration gradient across a cell membrane. This process is essential for maintaining proper cellular function and balance.
Active transport requires energy to move a molecule.
not sure
In active transport the ATP is used to pump molecules up the concentration gradient. Transport of molecules occurs from a low concentration of solute to high concentration of solute and requires cellular energy. While passive transport involves carriers, channels, or direct diffusion through a membrane.
Active transport requires energy to move molecules across a cell membrane, typically against a concentration gradient. This process is vital for maintaining proper internal conditions within a cell. Examples of active transport mechanisms include pumps and vesicular transport.
Active transport is a type of cellular transport that requires energy in the form of adenosine triphosphate (ATP) to move substances against their concentration gradient, from lower to higher concentration. This process enables cells to take up essential nutrients, excrete waste products, and maintain proper ion concentrations.