active
Yes, any form of active transport uses energy.
Secondary active transport aka facilitated diffusion [depending on your teacher].
yes
Active transport processes, such as primary active transport, secondary active transport, and vesicular transport, require the cell to expend energy in the form of ATP. These processes enable the movement of molecules or ions against their concentration gradients or across membranes.
Two major means of active membrane transport are primary active transport, which directly uses energy in the form of ATP to transport molecules against their concentration gradient, and secondary active transport, which uses the energy stored in the electrochemical gradient of one molecule to drive the transport of another molecule against its gradient.
In primary active transport, the transport protein gets phosphorylated; in secondary active transport, the transport protein is not phosphorylated
facilitated diffusion, secondary active transport and active transport
yes
Yes, any form of active transport uses energy.
By secondary active transport with Hydrogen.
Secondary active transport aka facilitated diffusion [depending on your teacher].
secondary active transport
yes
it's an example of secondary active transport.
passive or active transport. Passive transport does not require energy input and includes processes like diffusion and facilitated diffusion. Active transport requires energy input and includes processes like primary active transport and secondary active transport.
Active transport processes, such as primary active transport, secondary active transport, and vesicular transport, require the cell to expend energy in the form of ATP. These processes enable the movement of molecules or ions against their concentration gradients or across membranes.
Two major means of active membrane transport are primary active transport, which directly uses energy in the form of ATP to transport molecules against their concentration gradient, and secondary active transport, which uses the energy stored in the electrochemical gradient of one molecule to drive the transport of another molecule against its gradient.