Choose all of the true statements below. Hint: 5 statements are true. Red wavelengths have longer wavelengths and thus lower energy. The Calvin Cycle must turn 2 times to build up one molecule of glucose. Excited electrons move to higher energy orbitals and release energy as they fall back to their ground state. When an electron absorbs a photon, it goes from a ground state to an excited state. The three major stages of the calvin cycle include: carbon fixation, reducation, and regeneration of the CO2 acceptor RuBP. Chlorophyll absorbs green light giving plants their green appearance. In photosynthesis, H20 is reduced and CO2 is oxidized. O ATP is built by ATP synthase through photophosphorylation during the light reactions.

ATP is built by ATP synhesise through photophosphorylation during the light reactions-Photophosphorylation is the process of ATP generation in chloroplasts that is aided by light. The proton motive force generated during the flow of electrons from the light stage propels it forward. Protons pass through the ATP synthase enzyme complex, which crosses the membrane's lipid matrix.

The three major stages of the calvin cycle include carbon fixation, reduction, regeneration of the starting molecule-Fixation, reduction, and regeneration are the three basic steps of the Calvin cycle reactions ([Figure 2]). In addition to CO2, the stroma contains two other substances that kickstart the Calvin cycle: an enzyme called RuBisCO and the molecule ribulose bisphosphate (RuBP).

When an electron absorbs a photon , it goes from ground state to an exited state- When a ground state electron absorbs energy from an incoming photon, it rises to a higher energy level, which is one way of describing how it went from ground to excited.

Excited electron move to higher orbitals energy and release energy as they fall back to their ground state- An electron jumps to a higher orbital as it absorbs energy. This is referred to as an ecstatic condition. An electron in an excited state can 'fall' to a lower state by releasing energy. The electron emits a photon of electromagnetic energy when this happens.

Red wavelengths have longer wave lengths and thus lower energy- Red light has a lower frequency, a longer wavelength, and a lower energy level than blue light.