Sugar.
The membrane is impermeable to sugar molecules ... insulin's function is to activate active transport.
This is an example of active transport, specifically primary active transport. In this process, the cell uses energy in the form of ATP to move solutes against their concentration gradient, allowing the kidney cell to maintain the proper balance of salts in the body.
Active transport processes use ATP as a source of energy to move molecules against their concentration gradient across a cell membrane. This process requires specific transport proteins, such as ion pumps, to actively transport molecules across the membrane.
Facilitated transport and active transport are two ways molecules can move across a cell membrane. Facilitated transport does not require energy from the cell, while active transport does require energy in the form of ATP. Facilitated transport uses carrier proteins to help molecules move across the membrane, while active transport uses pumps to move molecules against their concentration gradient.
The process is called active transport. Active transport involves the movement of molecules across the cell membrane from an area of lower concentration to an area of higher concentration, which requires energy in the form of ATP.
Active transport is when cells use energy to move things through a cell membrane.Passive transport is when the cell uses no energy to move materials.Active - Specifically uses energy and through a cell membranePassive - Specifically uses no energy and materials
An example of active transport is sugar molecules going into a cell. It cannot pass right through like water and oxygen so it uses active transport.Diffusion
An example of active transport is sugar molecules going into a cell. It cannot pass right through like water and oxygen so it uses active transport.Diffusion
It is the active transport of liquids in vesicles into and out of a cell so it uses metabolic energy, thus active
This is an example of active transport, specifically primary active transport. In this process, the cell uses energy in the form of ATP to move solutes against their concentration gradient, allowing the kidney cell to maintain the proper balance of salts in the body.
One example of active transport is the sodium-potassium pump in animal cells. This pump actively transports sodium out of the cell and potassium into the cell against their concentration gradients, using ATP as energy. This process helps maintain the cell's resting membrane potential.
Active transport
It would be active transport, a process which requires a cell to use its own energy (unlike passive transport).
active transport
In an active transport, the cell uses energy (ATP) to transport the particle into the cell. Also, the particle moves through a "hallway" type thing. In a passive transport, the cell does not need energy (ATP) to transport the particle into the cell. Also, the particle just bursts through the cell membrane to get inside.
Active transport processes use ATP as a source of energy to move molecules against their concentration gradient across a cell membrane. This process requires specific transport proteins, such as ion pumps, to actively transport molecules across the membrane.
Facilitated transport and active transport are two ways molecules can move across a cell membrane. Facilitated transport does not require energy from the cell, while active transport does require energy in the form of ATP. Facilitated transport uses carrier proteins to help molecules move across the membrane, while active transport uses pumps to move molecules against their concentration gradient.
The process is called active transport. Active transport involves the movement of molecules across the cell membrane from an area of lower concentration to an area of higher concentration, which requires energy in the form of ATP.