Table of Contents
What is not needed for the Calvin cycle?
Complete answer: Calvin cycle is a dark reaction which means it is a light-independent cycle. It occurs in the absence of light during night time. It also occurs during daytime but the energy from sunlight is not needed by it to perform its function.
What cellular process does not require ATP?
Three transport processes that do not require energy are; diffusion, osmosis and facilitated diffusion.
What processes require the cell to use ATP energy?
ATP hydrolysis provides the energy needed for many essential processes in organisms and cells. These include intracellular signaling, DNA and RNA synthesis, Purinergic signaling, synaptic signaling, active transport, and muscle contraction.
What are 3 things needed for cellular respiration and ATP production?
Carbon dioxide and water are created as byproducts. In cellular respiration, glucose and oxygen react to form ATP. Water and carbon dioxide are released as byproducts. The three stages of aerobic cellular respiration are glycolysis (an anaerobic process), the Krebs cycle, and oxidative phosphorylation.
What is required for the Calvin cycle?
The Calvin cycle is a process that plants and algae use to turn carbon dioxide from the air into sugar, the food autotrophs need to grow. Energy to fuel chemical reactions in this sugar-generating process is provided by ATP and NADPH, chemical compounds which contain the energy plants have captured from sunlight.
Which of the following is not required for the Calvin cycle reactions of photosynthesis?
Which of the following is not required for the light-independent reactions of photosynthesis? ATP, stroma, NADPH, and CO2 are required for the light-independent reactions of photosynthesis. H2O is not required for the Calvin cycle.
Does not require passive or active ATP?
The main difference between the two is that active transport requires chemical energy in the form of ATP while passive transport requires no outside energy.
How is ATP produced in cellular respiration?
Most of the ATP produced by aerobic cellular respiration is made by oxidative phosphorylation. The energy of O2 released is used to create a chemiosmotic potential by pumping protons across a membrane. This potential is then used to drive ATP synthase and produce ATP from ADP and a phosphate group.