Adenosine Monophosphate
The major molecule involved in energy release and storage is ADENOSINE TRIPHOSPHATE. It contains a large ADENOSINE molecule connected to three PHOSPHATE groups via PHOSPHATE bond. When the bond that connects one of the three PHOSPHATE groups to the ADENOSINE molecule is broken down, energy is released. The resulting molecule would be ADENOSINE DIPHOSPHATE, one free PHOSPHATE group and energy.
In each MOLECULE of Pb3PO4 there would be 3 lead atoms, but Pb3PO4 is not a correct formula. The formula for lead phosphate would be Pb3(PO4)2. There are still 3 lead atoms per molecule of the compound.
No. Deoxyribose is the sugar in a DNA nucleotide. A DNA nucleotide would also include a phosphate group and a nitrogen base.
Would you kindly submit another question in which you indicate the purpose for the sodium phosphate or its alternative.
Step 1: Write out the chemical formula of the compound whose atomic mass you want to calculate. The chemical formula provides the number of atoms in one molecule of a compound (i.e. the chemical formula for water is H2O). For example, the chemical formula of phosphate is H3O4P.Step 2: Look up the atomic mass for each individual element in the given compound on the periodic table. This number is commonly found just below the letter symbol for the element. For our example, the atomic mass of hydrogen (H) is 1.008 amu per atom, oxygen (O) is 16.00 amu per atom and phosphorous (P) is 30.97 amu per atom.Step 3: Multiply the result for every atom in Step 2 by the number of atoms in one molecule of the compound. Phosphate contains three atoms of hydrogen, four atoms of oxygen and one atom of phosphorous in one molecule. So for phosphate the calculations would be as follows; 1.008 amu/atom x 3 hydrogen atoms per molecule = 3.024 amu of hydrogen per molecule, 16.00 amu/atom x 4 oxygen atoms per molecule = 64.00 amu of oxygen per molecule and 30.97 amu/atom x 1 phosphorous atom per molecule = 30.97 amu of phosphorous per molecule.Step 4: Add the numbers calculated for each atom in Step 3 together to determine the total amu for one molecule of the compound. So for phosphate the atomic mass is 3.024 + 64.00 + 30.97 = 97.99 amu in one molecule of phosphate.
I'm not sure Hassium would form a stable molecule with phosphate.
The major molecule involved in energy release and storage is ADENOSINE TRIPHOSPHATE. It contains a large ADENOSINE molecule connected to three PHOSPHATE groups via PHOSPHATE bond. When the bond that connects one of the three PHOSPHATE groups to the ADENOSINE molecule is broken down, energy is released. The resulting molecule would be ADENOSINE DIPHOSPHATE, one free PHOSPHATE group and energy.
The chemical formula for Sodium Phosphate is Na3PO4.Therefor there are 8 atoms in one molecule of Sodium Phosphate; Three Sodium atoms, One Phosphorus atom, and Four Oxygen atoms. Sodium Phosphate is also known as Trisodium phosphate or TSP.
Copper (II) PhosphateIs Cu3(PO4)2 soluble or insoluble?insoluble
To find the area of the remaining figure, subtract the area of the removed portion from the total area of the original figure.
I think you have written the formula incorrectly. !!! I think it should be Be3(PO4)2 In which case it is beryllium phosphate. As written 'Be3PO42' would indicate that there are '42' oxygens in the molecule. and only one phosphorus. Brackets are used to indicate the phosphate anion. The '2' is used to inidicate that there are two phosphate anions.
In each MOLECULE of Pb3PO4 there would be 3 lead atoms, but Pb3PO4 is not a correct formula. The formula for lead phosphate would be Pb3(PO4)2. There are still 3 lead atoms per molecule of the compound.
This model was based on 3 strands with unionized phosphate groups in the middle holding the molecule together. This didn't make sense because if the phosphate groups still had hydrogens, DNA would not be an acid... which it is.
I would add water to the trisodium phosphate. If it were an acid, then I would add the acid to the water.
"DNA is essentially made up of a sequence of nucleotides, each of which are associated with one molecule of phosphate." This is true, however not completely. Let's look at an example. Say we have a DNA molecule that is 10 base pairs long ( double stranded, so actually has 20 bases). The statement suggests we would have 20 phosphates in this molecule of DNA. However, we actually have 24. This is because the nucleotides situated at the 5' terminals of each strand have 3 phosphates rather than one. Since we have 2 5' terminals we have an excess of 4 phosphates which we did not account earlier, so instead of 20, we are now at 24 phosphates.
Yes. A typical light bulb socket is an open circuit when the bulb is removed, thus blocking the flow of current and turning off the remaining bulb. The removed bulb would go out too, of course. It is possible to imagine a bulb socket that reverts to a closed circuit when the bulb is removed. In that case, the remaining bulb would remain lit.
If you remove certain data points from a dataset, the correlation coefficient may be affected depending on the nature of the relationship between the removed data points and the remaining data points. If the removed data points have a strong relationship with the remaining data, the correlation coefficient may change significantly. However, if the removed data points have a weak or no relationship with the remaining data, the impact on the correlation coefficient may be minimal.