NDHP+
NDHP+
nadp
The answer is water you lazy bio major.
This is from another person-You know you should find the scientific reason of why your lazy.
NDHP+
Ghh
nadp+
A molecule is the neutral particle formed when electrons are shared between atoms. The charge is neutral when electrons are shared, negative when they gain electrons, and positive when they lose electrons.
A molecule of of H2O has 10 electrons: two from the hydrogen and 8 from the oxygen.
Unequal sharing of electrons in a water molecule causes the molecule to be polar.
Nitrogen exists in the atmosphere as N2, a diatomic molecule. There are two ( 2 ) atoms in an N2 molecule. Each atom has 7 neutrons, 7 protons, and 7 electrons; 2 electrons in the first shell and 5 electrons in the outer shell.
there are 5 bonding electrons. It depends on the number of valence electrons.
NADP+
There are 16 electrons in an oxygen molecule as each oxygen atom has 8 electrons.
It depends on the # of electrons are in it.
Light excites two sets of photosynthetic pigments. These are photosystem 1 (PS1) and photosystem 2 (PS2). PS1 is excited by photons at about 700 nanometers, while PS2 is excited at about 680 nanometers.
There are 22 electrons in one molecule of CO2.
A molecule shouldn't have valence electrons left.
oxygen is generated when two molecule of water are split to provide electrons lost by photosystem II so that the process of photosynthesis can continue progressively.
The light-dependent portion of photosynthesis is carried out by two consecutive photosystems (photosystem I and photosystem II) in the thylakoid membrane of the chloroplasts. The photosystems are driven by the excited chlorophyll molecules.To begin photosynthesis, the chlorophyll molecule in photosystem II is excited by sunlight and the energy produced helps to break down a water molecule (H2O) into ½O2 (with electrons removed) and 2H+. The removed electrons are excited by the light energy. When the electrons prepare to come to their rest state, they go through an oxidative phosphorylation process and produces an ATP molecule.As the electrons are coming to a resting state, they are excited again in photosystem I and raised to a even higher energy state. The excited electrons are then used to produce NADP+ + H+. The highly energetic NADPH molecule is then fed into the Calvin Cycle to conduct carbon fixation.
First of all it's not photosynthesis II, its photosystem II. well basically, the hydrogen atom within the water molecule loses its electrons and the electrons basically travels through all the photosytems via electron transport chains, towards the NADP Reductase where NADP+ is attached with the electrons from the hydrogen atoms of the water molecule to form NADPH
A molecule is the neutral particle formed when electrons are shared between atoms. The charge is neutral when electrons are shared, negative when they gain electrons, and positive when they lose electrons.
A molecule of of H2O has 10 electrons: two from the hydrogen and 8 from the oxygen.
Unequal sharing of electrons in a water molecule causes the molecule to be polar.