Answer:
The reactants of photosynthesis are Carbon Dioxide and water. The products are Glucose (or starch/sugar) and Oxygen. The autotroph uses light energy from the sun in order to complete this process. In the formula, the arrow is the light energy.
Explanation:
You have to find the number of moles of hydrogen gas produced when zinc and hydrochloric acid reacted. To do this you need to use the equation PV=nRT and solve for n.(n=PV/RT)
I would use 0.08206 atmL/molK For the gas constant so you need to convert 22°C into Kelvin, 748mmHg into atm, and 59.1mL into L.
22°C+273K=295K
748mmHgx(1atm/760mmHg)=0.984atm
59.1L=0.0591L
plugging everything in:
n=(0.0591Lx0.984atm)/(0.08206 atmL/molKx295K)
n=0.00240mol H₂
After finding the amount of hydrogen gas, you can find the volume of gas at STP by divide it by the molar volume of gas (22.4mol/L).
0.00240mol/22.4mol/L=1.07L H₂
The answer is 1.07L of hydrogen gas at STP was released from the reaction.
I hope this helps. Let me know if there was anything that was unclear to you.
Aspartate has three ionizable groups with pka values of 1.88, 9.60, and 3.65. The average net charge of aspartate at ph 3.65 is - 0.5.
<h3>
What Is Aspartate Amino Acid?</h3>
Aspartate, like glutamic acid and glutamate, is the anion of aspartic acid. Aspartic acid is a -amino acid with a net negative charge. It is the most well-known form of amino acid that occurs in physiological conditions of the body.
<h3>Relation between Asparagine and aspartic acid. </h3>
- Asparagine's amide group is easily hydrolyzed to amino and carboxyl groups to form aspartic acid. This transformation is linked to the molecular basis of ageing. It is found on the surface as well as inside proteins due to the ability of the amide group of molecules to form hydrogen bonds.
- Asparagine is a derivative of aspartic acid, as we can see. In the carbon distal to the carbon, asparagine has an amide functional group. Aspartic acid has a carboxyl group in its acidic form.
- Asparagine's side chain has no electric charge, making it polar.
- The fundamental and primary distinction is that aspartic acid has a C4 carbon, whereas Asparagine has an amide group.
- Because asparagine residues can be changed to form complex carbohydrate chains, they are important. It can also form a cycle within a peptide or protein to produce an amide, which then opens to produce aspartic acid.
- Asparagine's main function as a -amino acid is that it can be used in the biosynthesis of proteins, whereas Aspartic Acid, due to its overall negative charge, plays an important role in the synthesis of other amino acids.
- Aspartic acid is also involved in the synthesis of citric acid and the urea cycle.
Learn more about Aspartic acid here:-
brainly.com/question/2868862
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D: the composition of the materials that make up the planet