false this term is refered to as glucose
Yes, cellulose is an important sugar resulting from photosynthesis. It is a structural component in plant cell walls, providing strength and rigidity to the plant. Cellulose is one of the most abundant organic compounds on Earth and serves as a major carbon source for many organisms.
Of course it can be. Cellulose is made up of glucose
Yes, during photosynthesis, some of the glucose produced is used to synthesize other compounds, including cellulose. Cellulose is a vital structural component of plant cell walls, providing strength and rigidity. Additionally, glucose can be converted into starch for energy storage, as well as other organic molecules essential for the plant's growth and development.
fck yu thats the answer btch
Plants can use the sugar produced during photosynthesis for several purposes. First, they can convert it into energy through cellular respiration to fuel growth and metabolic processes. Second, excess sugar can be stored as starch for later use during periods of low light or winter. Lastly, sugar can be utilized to synthesize other essential compounds, such as cellulose for cell walls and various organic molecules for growth and development.
Yes, cellulose is an important sugar resulting from photosynthesis. It is a structural component in plant cell walls, providing strength and rigidity to the plant. Cellulose is one of the most abundant organic compounds on Earth and serves as a major carbon source for many organisms.
Of course it can be. Cellulose is made up of glucose
Yes, during photosynthesis, some of the glucose produced is used to synthesize other compounds, including cellulose. Cellulose is a vital structural component of plant cell walls, providing strength and rigidity. Additionally, glucose can be converted into starch for energy storage, as well as other organic molecules essential for the plant's growth and development.
fck yu thats the answer btch
false
Photosynthesis produces sugar. That is all. Sugar can be used to make complex carbohydrates such as starch or cellulose, but photosynthesis only makes sugar. It does not make anything else. Protein, for example, is not made by photosynthesis.
Plants can use the sugar produced during photosynthesis for several purposes. First, they can convert it into energy through cellular respiration to fuel growth and metabolic processes. Second, excess sugar can be stored as starch for later use during periods of low light or winter. Lastly, sugar can be utilized to synthesize other essential compounds, such as cellulose for cell walls and various organic molecules for growth and development.
photosynthesis includes bifonctionalproductional 12%,aristatomone 20%,the claristaone (Hoce3)46%,trictionalistozonolistore(called tristi in simplified words or H4oerc5)21%,and last of all that is just a little trace of Co2 1%.
organic compounds found in plants that serve as sources of energy and structural components. Sugar and starch are used for energy storage, while cellulose provides structural support in plant cell walls. These compounds are made up of carbon, hydrogen, and oxygen atoms.
The chemical formula for leaves is primarily C6H12O6, which represents the basic molecular formula for glucose, a simple sugar produced during photosynthesis. Leaves also contain other compounds such as chlorophyll, cellulose, and various nutrients, contributing to their green color and structural integrity.
This is an essay topic for your homework. WikiAnswers will not do your homework for you.Rather than being a lazy feckless student, why do you not research Photosynthesis questions on WikiAnswers and learn how to do your homework yourself.Edited answer:The plants are capable of making glucose from CO2 and H2O, using sunlight. This hexose sugar is later converted in to starch and cellulose. Thus photosynthesis is important to plants in making oganic compounds from inorganic forms.
Like all green plants, it uses photosynthesis to produce sugars such as glucose, starch or cellulose. Photosynthesis occurs in the leaves of a GREEN plant.