The light DEPENDENT reaction is the first one - and it is, obviously, reliant on sunlight. The energy from the sunlight, along with water are converted into ATP (chemical energy) and electron carriers (NADPH). Basically, you haven't really formed any sugar in the light dependent reaction yet...you're just setting it up for the light independent reaction. (By the way, this reaction happens in the grana of the chloroplast.)
The light INDEPENDENT reaction takes the energy and electron carriers from the previous reaction and uses them to turn carbon dioxide into glucose. This reaction doesn't need light...but it will cease if it uses up all the chemical energy. This reaction happens in th stroma of the chloroplast.
Source(s):AP Bio studentThe chemical equation for Mercury(II) oxide is HgO. It consists of one mercury atom and one oxygen atom bonded together in a one-to-one ratio.
The chemical equation for mercury(II) oxide is HgO. It is composed of one mercury (Hg) atom and one oxygen (O) atom.
When heated, mercury(II) oxide decomposes into mercury and oxygen gas. This is a chemical reaction where mercury(II) oxide undergoes thermal decomposition. The balanced chemical equation for this reaction is: 2HgO(s) → 2Hg(l) + O2(g)
The reactants in the equation are mercury II oxide (HgO). This compound will decompose into mercury (Hg) and oxygen (O2) during the reaction.
the balanced equation of mercuryII oxide HgO undergoes a chemical change to form mercury and oxygen is given as .2HgO(s) --> 2Hg(l) + O2(g)The reaction is a redox reaction. Mercury (II) is reduced to zero charge. Oxygen is oxidized to zero charge.Molecule: HgO(s)
Oxidizing mercury is a chemical change because it involves a rearrangement of atoms in the mercury molecules to form new compounds (such as mercury oxide). This results in a change in the chemical composition of the substance.
The chemical equation for mercury(II) oxide is HgO. It is composed of one mercury (Hg) atom and one oxygen (O) atom.
When heated, mercury(II) oxide decomposes into mercury and oxygen gas. This is a chemical reaction where mercury(II) oxide undergoes thermal decomposition. The balanced chemical equation for this reaction is: 2HgO(s) → 2Hg(l) + O2(g)
The word equation for the breakdown of solid mercury(II) oxide when heated is: Mercury(II) oxide --> Mercury + Oxygen.
The chemical formula for mercury(II) oxide is HgO.
The chemical formula for Mercury II oxide is HgO.
The reactants in the equation are mercury II oxide (HgO). This compound will decompose into mercury (Hg) and oxygen (O2) during the reaction.
The chemical formula for Mercury I oxide is Hg2O, and the formula for Mercury II oxide is HgO.
the balanced equation of mercuryII oxide HgO undergoes a chemical change to form mercury and oxygen is given as .2HgO(s) --> 2Hg(l) + O2(g)The reaction is a redox reaction. Mercury (II) is reduced to zero charge. Oxygen is oxidized to zero charge.Molecule: HgO(s)
Oxidizing mercury is a chemical change because it involves a rearrangement of atoms in the mercury molecules to form new compounds (such as mercury oxide). This results in a change in the chemical composition of the substance.
The equation for the formation of red mercury (mercury(II) oxide) is 2Hg + O2 -> 2HgO. This reaction occurs when mercury reacts with oxygen to produce red mercury oxide.
The decomposition of mercury(II) oxide (HgO) can be represented by the following equation: 2HgO(s) -> 2Hg(l) + O2(g).
The balanced chemical equation for the reaction between water and copper(II) oxide is: CuO + H2O → Cu(OH)2