Sodium Potassium Pump - Amobea

Glucose

Oxygen

ATP

Carbon dioxide

By moving ions down their concentration gradient

By maintaining a difference in ion concentrations between the inside and outside of the cell

By moving water in and out of the cell

By creating energy for the cell

Two

Three

Four

One

The pump changes shape

The pump releases water

The pump moves faster

The pump stops working

Three

Two

One

Four

It moves ions down their concentration gradient

It requires energy to move ions against their concentration gradient

It uses passive diffusion

It does not require any energy

A concentration gradient is the movement of ions from low to high concentration, which the pump supports

A concentration gradient is the difference in solute concentration across a membrane; the pump moves ions from low to high concentration

A concentration gradient is the movement of ions through diffusion, and the pump assists with this

The pump only works when there is no concentration gradient

By bringing in more positive sodium ions

By allowing ions to passively move out

By moving three positive sodium ions out for every two positive potassium ions brought in

By increasing the flow of potassium out of the cell

They let sodium leak into the cell

They block potassium from moving

They allow potassium ions to move out of the cell, contributing to the negative charge inside

They pump potassium into the cell

Glucose and water

Chloride and calcium

Hydrogen and carbon dioxide

Oxygen and nitrogen