Vesicles filled with a product are excreted from a cell by a process called exocytosis. The opposite is called endocytosis. Both processes require cellular energy (ATP).
It is called exocytosis. In this process the Golgi complex packages the macro-molecules in to transport vesicles that travel to and fuse with the plasma membrane. This causes the vesicle to spill the substance out of the cell.
It is called exocytosis. In this process the Golgi complex packages the macro-molecules in to transport vesicles that travel to and fuse with the plasma membrane. This causes the vesicle to spill the substance out of the cell.
It is called exocytosis. In this process the Golgi complex packages the macro-molecules in to transport vesicles that travel to and fuse with the plasma membrane. This causes the vesicle to spill the substance out of the cell.
Vesicles filled with a product are excreted from a cell by a process called exocytosis. The opposite is called endocytosis. Both processes require cellular energy (ATP).
exocytosis or osmosis
dissociation
When nerve impulses are triggered near the soma/cell body, an electrical current known as the ACTION POTENTIAL sweeps through the axon and into the axon terminal. When the action potential reaches the tips of the axon terminal, it causes the synaptic vesicles to move towards the membrane of the terminal buttons. The buttons then open up and release the neurotransmitters (drugs.) The neurotransmitter molecules cross over the synaptic gap and attach themselves unto the receptor sites of the other neuron. After accomplishing their work on the receptor sites, some of the neurotransmitter molecules are broken down into other chemicals in a process called Degradation. The rest of the neurotransmitter molecules are taken up by the vesicles for reuse in a process called Reuptake.
chemical digestion
Endosysbiosis
Metabolism
Process whereby selected molecules are actively transported from the blood into the filtrate Process whereby selected molecules are actively transported from the blood into the filtrate
dissociation
In Biology, catabolism refers to the destruction, or degradation of biomolecules. This is typically a controlled process whereby enzymes cleave molecules to their constituent molecules.
Diffusion refers to the process whereby the molecules move from a region of high concentration to a region of low concentration.
Convection is the process whereby heat is transferred by the mass movement of molecules from one place to another.
When nerve impulses are triggered near the soma/cell body, an electrical current known as the ACTION POTENTIAL sweeps through the axon and into the axon terminal. When the action potential reaches the tips of the axon terminal, it causes the synaptic vesicles to move towards the membrane of the terminal buttons. The buttons then open up and release the neurotransmitters (drugs.) The neurotransmitter molecules cross over the synaptic gap and attach themselves unto the receptor sites of the other neuron. After accomplishing their work on the receptor sites, some of the neurotransmitter molecules are broken down into other chemicals in a process called Degradation. The rest of the neurotransmitter molecules are taken up by the vesicles for reuse in a process called Reuptake.
diffusion. novanet.
Craking is the process whereby complex molecules are broken down into simpler molecules : Example : C36H74 + H2 >> C2H6 + C34H70 Reforming is a process used to convert molecules having low octane ratings into hight- octane liquid products Example CH3(CH2)6CH3 >> CH3C(CH3)2CH2CH(CH3)CH3
Is a process whereby jet begin
Yes, they can occur at the same time. Evaporation is the process whereby the molecules of the liquid which possess enough kinetic energy (KE) escape from the liquid. Condensation is the process whereby the molecules of the vapour which possess too little KE, thus return to the liquid. While there are molecules that possess enough KE to be vapour, there can also be vapour molecules that possess too little KE to be vapour (for example: Clouds). The two kinds of molecules can co-exist. Thus, evaporation and condensation can occur at the same time. When the rate of evaporation is greater than the rate of condensation, there is a net decrease in the amount of molecules in the liquid, and vice versa.
The answer is Succession.
excytosis