Active transportation need energy.That energy is given by ATP.
The active transport of potassium ions against its concentration gradient, typically from inside to outside the cell, requires ATP to drive the process by providing energy. This ATP-dependent process is crucial for maintaining the electrochemical balance of the cell and plays a role in various physiological functions, such as nerve transmission and muscle contractions.
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 requires some form of energy input, usually ATP
Active transportation needs energy.(ATP). ATP is produced by mitochondria
Not all types of active transport directly use ATP as an energy source. Primary active transport relies on ATP to move substances against their concentration gradient, such as the sodium-potassium pump. In contrast, secondary active transport utilizes the energy generated from the movement of one molecule down its gradient to drive the transport of another molecule against its gradient, often indirectly linked to ATP usage. Therefore, while ATP is crucial in some active transport processes, it is not a requirement for all.
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.
Active transport is ATP dependent, whereas passive transport uses only the kinetic energy of the particles for movement across the plasma membrane- mastering A and P homework-
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.
yes it is
ATP is required for active transport.
The active transport of potassium ions against its concentration gradient, typically from inside to outside the cell, requires ATP to drive the process by providing energy. This ATP-dependent process is crucial for maintaining the electrochemical balance of the cell and plays a role in various physiological functions, such as nerve transmission and muscle contractions.
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.
Processes that require ATP cellular energy include muscle contraction, active transport of molecules across cell membranes, and cellular respiration to generate energy in the form of ATP. Additionally, ATP is needed for biosynthesis of molecules, DNA replication, and cell division.
Adenosine triphosphate (ATP) is the molecule that supplies the energy for active transport in cells. ATP is produced during cellular respiration and carries energy that is used by transport proteins to move molecules against their concentration gradient.
The movement that requires the expenditure of ATP molecules is called active transport. In active transport, cells use ATP to move molecules or ions against their concentration gradient, ensuring that specific substances are taken up or expelled from the cell as needed. This process is essential for maintaining cellular functions and homeostasis.
ATP is often used as the source of energy during active transport.
Active transport requires some form of energy input, usually ATP