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NADH is the electron carrier that stores energy used to make ATP. It is a naturally-occurring and vital compound found in all living cells of plants, animals, and humans.

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A reaction that requires direct energy of sunlight to make energy of sunlight to make energy carrier molecules?

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What is the reaction that requires direct energy of sunlight to make energy carrier molecules?

Photosynthesis is the reaction that requires direct energy from sunlight to produce energy carrier molecules like ATP and NADPH in plants.


Does an electron absorb energy and make a transition to a higher energy orbital when the solution it is in is being heated?

Yes, when an electron absorbs energy (e.g., from heating the solution), it can transition to a higher energy orbital. This is because the extra energy provides the electron with the necessary boost to move to a higher energy state.


Which is the role of a photosystem I in the light reactions?

To make energy-carrier molecules like NADPH


Electron carrier that provides the high energy electrons needed to make carbon-hydrogen bonds in the third stage of photosynthesis?

NADPH (nicotinamide adenine dinucleotide phosphate) is the electron carrier that provides the high-energy electrons required to make carbon-hydrogen bonds in the third stage of photosynthesis (Calvin cycle). These electrons are essential for reducing carbon dioxide to produce sugars and other organic compounds. NADPH is produced during the light-dependent reactions of photosynthesis.


What is the main function of the Krebs cylce?

The main function of the Krebs cycle is the complete oxidation of glucose to produce ATP. It is also referred to as the citric acid cycle.


Will an electron excite if it is given energy that will allow it to exist in between two energy levels?

Will an electron excite if it is given energy that will allow it to exist in between two energy levels? No An electron can only exist in specific energy levels. Giving an electron more energy can make it escape from the attraction of the protons completely and the atom now has 1 less electron and is a +1 ion. Have you seen an electron discharge tube? If I turn up the power, the tube will become brighter, but the color will not change. The color of light is the product of the electron returning from the excited state to its ground state. Will an electron excite if it is given energy that will allow it to exist in between two energy levels? No An electron can only exist in specific energy levels. Giving an electron more energy can make it escape from the attraction of the protons completely and the atom now has 1 less electron and is a +1 ion. Have you seen an electron discharge tube? If I turn up the power, the tube will become brighter, but the color will not change. The color of light is the product of the electron returning from the excited state to its ground state.


What happens when a 3s electron becomes a 2s electron?

Any electron is not fixed to any sub-shell or orbital. If you provide sufficient energy to an electron, it would make transition to any of the higher energy orbitals and then come back to the lower orbitals radiating energy.


Which is a role of photosystem 1 in the light reactions?

to make energy-carrier molecules like NADPH Apex


What does adding one 2s electron for Lithium do to the energy of the 2 p electrons Why does this make sense?

Lithium belongs to atomic number 3 adding 1 electron in the energy shell does not make sense because it will still be unstable.


What is your carrier goal?

Anything to make a carrier goal.


This reaction requires direct energy of the sunlight to make energy carrier molecules?

The process described is photosynthesis, which occurs in plants and some bacteria. Photosynthesis uses sunlight to convert carbon dioxide and water into glucose (energy carrier) and oxygen. The energy from sunlight is captured by chlorophyll in plant cells and used to drive this chemical reaction.