the answer is C6H12O6 + O6 -> 6 CO2 + 6 H2O
i wish i knew why, but my APBio book says this is the right answer :\
[[improved]]
It is the right answer because the breaking of bond releases energy while the forming of bonds required energy.
Glucose (C6H12O6) is being broken down by oxygen to carbon dioxide (C02) and water (H2O).This process is actually cellular respiration in which ATP or energy if being formed. This metabolic process is exergonic.
In order to accomplish metabolic work, a cell needs to effectively convert nutrients into energy through metabolic pathways such as glycolysis and the citric acid cycle. This energy is then used for various cellular processes such as growth, maintenance, and reproduction. Additionally, cells need to regulate and coordinate these metabolic activities to ensure proper functioning.
Bacteria need energy to carry out essential biological processes such as growth, reproduction, and maintenance of cellular functions. Energy is required to synthesize essential molecules, generate ATP for cellular activities, and maintain their metabolic pathways.
Metabolic processes that require oxygen are termed aerobic. Metabolic processes that do not require oxygen are termed anaerobic.
Some careers that require knowledge about metabolic processes include biochemist, nutritionist/dietitian, pharmacist, and medical researcher. These professionals study how the body converts food into energy, how nutrients are processed and utilized, and how metabolic processes impact overall health and disease.
Metabolic function refers to the various chemical processes that occur in the body to convert food into energy. This includes processes such as digestion, absorption, transportation, and utilization of nutrients by cells for energy production and growth. Maintaining proper metabolic function is crucial for overall health and well-being.
Land plants generate the energy they need for their metabolic energy by converting their light energy to metabolic enrgy or so called chemical energy.
No, metabolic processes actually require water.
In order to accomplish metabolic work, a cell needs to effectively convert nutrients into energy through metabolic pathways such as glycolysis and the citric acid cycle. This energy is then used for various cellular processes such as growth, maintenance, and reproduction. Additionally, cells need to regulate and coordinate these metabolic activities to ensure proper functioning.
Yes, plants need oxygen to survive. They use oxygen during respiration to convert sugars into energy for growth and other metabolic processes.
Glucose catabolism provides energy for needed metabolic cellular processes.
Vesicular transport
Catabolic processes break down molecules to release energy, while anabolic processes build molecules using energy. Together, they maintain the metabolic balance of an organism by ensuring that energy is both released and stored efficiently.
Bacteria need energy to carry out essential biological processes such as growth, reproduction, and maintenance of cellular functions. Energy is required to synthesize essential molecules, generate ATP for cellular activities, and maintain their metabolic pathways.
The energy loss when a fox eats a rabbit mainly comes from metabolic processes such as digestion and cellular respiration. In general, only about 10% of the energy from one trophic level is transferred to the next, so most of the energy consumed by the fox is lost as heat or used for its own metabolic functions.
Metabolism. Basic Metabolic Rate (BMR)
Plants require energy for various essential functions such as growth, reproduction, maintenance of cellular processes, and responding to environmental stimuli. They use energy obtained through photosynthesis to convert sunlight into chemical energy, which is further utilized for these biological processes. Although plants are rooted in place, energy is necessary to sustain their metabolic activities and overall survival.
Metabolic processes that require oxygen are termed aerobic. Metabolic processes that do not require oxygen are termed anaerobic.