Difference Between Aerobic and Anaerobic Cellular Respiration

It will be very interesting to see how light will influence the rate of photosynthesis in plants and what will happen if they do not get the required light in order to produce starch .

Photosynthesis - humans, body, used, water, process, …

Photosynthesis is important because animals eat food, as it is a source of energy.

Photosynthesis is the pathway used to synthesize carbohydrates from

Animals are ; they cannot carry out photosynthesis. This means that they have to eat other things to get the carbohydrates, fats, proteins, vitamins and minerals which they need.

Photosynthesis is the pathway used to synthesize carbohydrates from:

During oxygenic photosynthesis, light energy transfers electrons from water (H2O) to carbon dioxide (CO2), which produces carbohydrates. In this transfer, the CO2 is "reduced," or receives electrons, and the water becomes "oxidized," or loses electrons. Ultimately, oxygen is produced along with carbohydrates.

The Plan In my experiment I am going to see how light affects the rate of photosynthesis.

Basic Steps of Photosynthesis - Bing images

In a broad chemical sense, the opposite of photosynthesis isrespiration. Most of life on this planet (all except in the deepsea vents) depends on the reciprocal photosynthesis-drivenproduction of carbon containing compounds by a series of reducing(adding electrons) chemical reactions carried out by plants andthen the opposite process of oxidative (removing electrons)chemical reactions by animals (and plants, which are capable ofboth photosynthesis and respiration) in which these carboncompounds are broken down to carbon dioxide and water.

Tiny 'forest' advances artificial photosynthesis - Futurity

Photosynthetic organisms can be divided into two classes:those which produce oxygen and those which do not. Photosyntheticbacteria do not produce oxygen (in fact some of them calledanaerobes cannot tolerate oxygen) and this is considered a moreprimitive type of photosynthesis (in which the hydrogen donor ishydrogen sulfide, lactate or other compounds, but not water).Plants and one type of bacteria (cyanobacteria) do produceoxygen, an evolutionarily more advanced type of photosynthesis(in which the hydrogen donor is water).

Aim To see whether light effects the rate of Photosynthesis in plants or not....

Which supplies energy used to synthesize carbohydrates during the ..

Carbohydrates, which include cellulose, starches, sugars, and many other compounds, are the most abundant single class of organic substances found in nature. They are formed in green plants and certain bacteria by a process knownas photosynthesis, in which energy derived from sunlight is used for theassimilation of carbon dioxide from the air. If carbon dioxide, water, minerals, and an appropriate inorganic source of nitrogen are available, theseorganisms, with the aid of solar energy, can synthesize all the differentcarbohydrates, , and they need for their existence. Other organisms cannot do this. Itfollows that life on Earth ultimately depends on this process of carbon dioxideassimilation in which carbohydrates are the first intermediates.

Photosynthesis mainly takes place in the palisade mesophyll cell in the leaves of plants.

pathway used in photosynthesis to synthesize carbohydrates ..

The process of photosynthesis takes place in the middle layer of the leaf or mesophyll, where the specialized bodies in this process are called chloroplasts. Chloroplasts consist primarily of an outer membrane, and inner membrane and one a series of sacks, called thylakoids membranes in which chlorophyll pigments or other are formed. Thylakoids are grouped in vertical columns called grana. Inside chloroplasts remaining space is covered by a fluid called stroma.

Photosynthesis transforms solar energy into chemical bond energy of carbohydrates.

also is used by photosynthesis.

Background information: Photosynthesis Photosynthesis is the process of autotrophs turning carbon dioxide and water into carbohydrates and oxygen, using light energy from sunlight.