Science, asked by sanjaykumarsheela121, 4 months ago

प्लांट्स इन साइड विच मैटेरियल move by डिफ्यूजन give two example​

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Answered by ItzMrVinay
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Answer:ctive transport is the process by which materials move from a lower concentration to a higher concentration. Using adenosine triphosphate (ATP, needed for cellular energy) from respiration, molecules can move from one side of a cell wall to another. Keep reading to find examples of active transports in both plants and animals.

Active Transport Example

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Examples of Active Transport in Plants

Though plants don’t appear very busy, the cells in their roots, stems, and leaves are constantly working. Minerals from soil, sugars from the sun, and water molecules must travel throughout the plant – and slip through cell walls. In the cases where energy (such as ATP) is required for this process, active transport takes place.

Some examples of active transport in plants include:

Ions moving from soil into plant roots

Transportation of chloride and nitrate from the cytosol to the vacuole

Sugars from photosynthesis moving from leaves to fruit

Calcium using energy from ATP to move between cells

Minerals traveling through a stem to various parts of the plant

Water moving from plant roots to other plant cells via root pressure

Examples of Active Transport in Animals and Humans

Both animals and humans experience active transport at the cellular level. Neural cells, white blood cells, intestinal cells, and other cells around the body use active transport to distribute nutrients and ions. Here are some examples of active transport in animals and humans:

Sodium-potassium pump (exchange of sodium and potassium ions across cell walls)

Amino acids moving along the human intestinal tract

Calcium ions moving from cardiac muscle cells

Glucose moving in or out of a cell

A macrophage ingesting a bacterial cell

Enzyme secretion

Release of antibodies

Neurotransmitters transmitting across brain cell synapse

White blood cells attacking disease-causing agents

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Types of Active Transport

Active transport occurs when cells use energy to move molecules against the concentration gradient. Think of it like pushing a car uphill. If you were going downhill, gravity would do the work for you. But since you’re going against gravity, you need extra energy to do the job.

Active transport works the same way. For example, plant roots need every bit of water they can gather. The individual plant cells may have more water than the soil does, but they still need that water. That’s where active transport comes in – to move molecules where they might not naturally go.

There are two types of active transport that use energy to move molecules from lower to higher concentrations: primary and secondary active transport.

Primary Active Transport

Cells use the breakdown of ATP for primary active transport. The energy created by root pressure brings water molecules to higher concentrations in a plant, for example. Energy from cellular membrane pumps, such as the sodium-potassium pump, creates enough energy to move molecules across the membrane.

Secondary Active Transport

Cellular processes that use secondary active transport require leftover energy stores from primary active transport. This energy is stored in electrochemical gradients. As a primary active transport occurs via a carrier protein, a secondary active transport may share the carrier protein and energy it uses to transport a second molecule.

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Endocytosis and Exocytosis

Two additional forms of active transport are endocytosis (items entering a cell) and exocytosis (items exiting a cell). In endocytosis, the cell can engulf liquid materials and absorb them, otherwise known as pinocytosis. Phagocytosis, the other form of endocytosis, involves a cell absorbing a solid particle. When a cell has enough of a substance or needs it to go elsewhere, it uses exocytosis to discharge the substance through the cell wall.

Active Transport vs. Passive Transport

It’s helpful to think of active transport and passive transport as opposites. You already know that active transports require energy to move molecules from lower to higher concentrations. Passive transport works the other way – higher to lower concentrations – and does not require extra energy. Diffusion and osmosis are examples of passive transport.

Learning Biology Concepts

Our cells are hard at work every second, providing us with plenty of energy, oxygen, and nutrients to sustain life. When you learn more about biological processes, you learn more about life. For more biological resources, check out an article on everyday examples of diffusion. How can you tell that these processes are passive transport and not active transport?

Jennifer Gunner

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