Respiration is the process by which organisms burn food to produce energy. The starting material of cellular respiration is the sugar glucose, which has energy stored in its chemical bonds. You can think of glucose as a kind of cellular piece of coal: chock-full of energy, but useless when you want to power a stereo. Just as burning coal produces heat and energy in the form of electricity, the chemical processes of respiration convert the energy in glucose into usable form.
well, simply put it this way. by cellular respiration fermentation and photosynthesis are dying in a hole. LOLOLOLOLOLOL
Cellular respiration is a catabolic process. It involves breaking down complex molecules such as glucose to release energy in the form of ATP.
Complex organisms need cells that perform many different functions. Complex organisms are capable of a lot of different things, and that variety needs to be supported on the cellular level. Without them, complex organisms cannot perform different functions.
Photosynthesis and cellular respiration are the opposites of each other. Photosynthesis takes in energy (from the sun's light) and stores that energy in complex sugars. Cellular respiration breaks down these complex sugars and turns the stored energy into the usable form of energy, ATP.
Yes, complex organisms depend on cellular differentiation to survive. Cellular differentiation allows cells to develop specialized functions, enabling the formation of diverse tissues and organs that perform specific roles essential for the organism's overall functioning. This specialization is crucial for processes such as metabolism, immune response, and reproduction, allowing complex organisms to adapt and thrive in their environments. Without cellular differentiation, the intricate systems required for survival and homeostasis would not be possible.
well, simply put it this way. by cellular respiration fermentation and photosynthesis are dying in a hole. LOLOLOLOLOLOL
well, simply put it this way. by cellular respiration fermentation and photosynthesis are dying in a hole. LOLOLOLOLOLOL
Cellular respiration is a catabolic process. It involves breaking down complex molecules such as glucose to release energy in the form of ATP.
It is the complex that partakes in cellular respiration
Cellular respiration is performed by the mitochondria of a cell. It involves a series of complex biochemical reactions that convert glucose and oxygen into energy in the form of ATP (adenosine triphosphate) for the cell to use.
Oxygen, in complex IV.
Pyruvate dehydrogenase complex
Respiration is the process by which organisms burn food to produce energy. The starting material of cellular respiration is the sugar glucose, which has energy stored in its chemical bonds. You can think of glucose as a kind of cellular piece of coal: chock-full of energy, but useless when you want to power a stereo. Just as burning coal produces heat and energy in the form of electricity, the chemical processes of respiration convert the energy in glucose into usable form.
Yes, cellular respiration is more complex than its equation. The process involves multiple steps and complex biochemical reactions that occur in different cellular compartments, such as the cytoplasm and mitochondria. The equation, while accurate in summarizing the overall process, does not fully capture the intricacies and regulatory mechanisms involved in cellular respiration.
Yes, decomposers and detritus feeders do cellular respiration. They break down organic matter through the process of cellular respiration to obtain energy for their survival and growth. This process involves the breakdown of complex molecules into simpler compounds, releasing energy in the form of ATP.
The opposite of photosynthesis is cellular respiration. Photosynthesis stores up energy in the form of complex sugars while cellular respiration breaks down these sugars in order to harvest their energy. The fact that they are opposites are reflected in their chemical equations, as shown below. Photosynthesis: 6CO2 + 6H2O + light energy --> 6C6H12O6 + 6O2 Cellular respiration: 6C6H12O6 + 6O2 --> 6CO2 + 6H2O + 34ATP
Complex organisms need cells that perform many different functions. Complex organisms are capable of a lot of different things, and that variety needs to be supported on the cellular level. Without them, complex organisms cannot perform different functions.