Difference Between Active and Passive Transport (original) (raw)
Last Updated : 23 Jul, 2025
**Active and Passive transport system is present in every phospholipid bilayer of the cell wall, which performs transportation of desired molecules such as nutrients, oxygen, water, and other molecules inside the cells and removal of waste products outside of the cell. Active transport requires ATP to transport molecules from lower concentrations to higher concentrations, while passive transport does not require ATP as it transports molecules from high concentration to low concentration gradient.
In this article, we will explore the key difference between Active and Passive Transport along with the types.
Table of Content
- What is Active transport?
- What is Passive Transport?
- Difference between Active and Passive transport
- Conclusion - Difference Between Active and Passive Transport
- FAQs on Active and Passive transport
What is Active transport?
It is a type of transport system which requires energy to transport large molecules like protein, sugar etc. from lower concentration to higher concentration. The energy is required in the form of ATP i.e., adenosine triphosphate.
Also Read: ATP Synthesis in Mitochondria
Types of Active Transport
There are 2 types of Active transport:
Primary Active Transport
In the primary active transport, transmembrane proteins help detect the molecule that has to be carried. These molecules are then pumped to the desired location utilizing ATP, a chemical energy.
For instance, primary active transport mechanism aids in the transportation of the Na/K via sodium/potassium pump. During this process, the cell's transmembrane proteins detect the need for extracellular fluid and pump the necessary molecules using ATP. Consequently, two K ions are transported into the cells and the three Na ions are pump out of the cell.
Secondary Active Transport
Secondary active transport is processed by porin proteins present in the transmembrane. In this type of transport electromagnetic current forms a channel though which transportation of molecule occur. Secondary active transport consists of two other transport system which is known as Co-Transporters.
Co-transporters are categorized into two types:
- **Symporters: Symporters works, when solute and ions travel in the same direction.
- **Antiporters: Antiporters work, when ions and solute flow in the reverse direction. For example, sodium/calcium exchanger.
What is Passive Transport?
It is a transport system which does not required any energy to transport molecule across the membrane of cell from a high-concentration to a low-concentration gradient. A concentration gradient is not necessary for passive transport, in contrast to active transport. Passive transport uses heat energy instead of ATP for transportation of molecules.
Types of Passive Transport
There are 3 types of Passive transport:
Osmosis
The transfer of water molecules from an area of higher concentration to a region of lower concentration over a semipermeable membrane is known as osmosis.
Osmosis is of two types
- **Exo-osmosis: Exo-osmosis is the process in which water leaves a cell when it is submerged in a hypertonic solution. The cell contracts and becomes more voluminous as a result.
- **Endo-osmosis: When a cell is submerged in a hypotonic solution, water enters the cell by osmosis. This process is known as endosmosis.
Simple Diffusion
Transportation of molecules via simple diffusion from a higher concentration to a lower concentration until equilibrium is reached. In plants, basic diffusion facilitates the exchange of CO2 and O2 and it does not require energy for transportation.
There is one more type of simple diffusion that is known as imbibition: Imbibition is a process of diffusion in which liquid like water get absorbed in to solid cell like plant seed thus increasing the volume of seed.
Facilitated Diffusion
It is referred to as facilitated diffusion when lipid insoluble molecules are transferred across the membrane with the assistance of certain proteins (Channel proteins, gated channel proteins and carrier proteins) and it does not required ATP.
Difference Between Active and Passive Transport
Below are the some listed difference between active and passive transport system
| **Properties | **Active Transport | **Passive Transport |
|---|---|---|
| **Energy | It requires ATP to perform transport | It does not requires ATP to perform function |
| **Transport gradient | In this transport occur from lower concentration to higher concentration | Transport occurs from higher gradient to lower gradient |
| **Molecules | It usually transports large molecules like sugar, proteins, ions etc. | It transports soluble molecules like O2 , CO2, hormones etc. |
| **Direction | Unidirectional | Bidirectional |
| **Selective | It is highly selective process | It is partially selective process |
| **Influence of temperature | It is very sensitive to temperature | It is not temperature sensitive process |
| **Inhibitors | It can be inhibited by metabolic inhibitors | It can not be inhibited by metabolic inhibitors |
| **Types | Endocytosis, Exocytosis and Na/K pump | Osmosis, simple diffusion, facilitated diffusion |
| **Speed rate | It is a fast or rapid process of transport | It is a slow process of transport in contrast to active transport |
| **Oxygen dependent | Oxygen molecule is required to continue the process | Does not require oxygen molecule to continue the process |
Conclusion - Difference Between Active and Passive Transport
Active transport need energy, while passive transport do not need energy for transportation of molecules. In active transport molecules transported against the gradient while in passive transport molecules move with the gradient. Active transport are of two types primary and secondary transport wherein secondary transport consists of cotransporters i.e. antiport and symport. Passive transport is of three types osmosis (endo-osmosis and exo-osmosis), facilitated diffusion and simple diffusion (imbibition). These all transports help in transportation of desired molecules inside the cell and removal of waste product from inside to outside of the cell.
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