A. Complete and balance the following combination reactions.
1. Carbon + Oxygen 
2. Sulfur + Carbon 
3. Nitrogen + Hydrogen 
4. Hydrogen + Oxygen 
5. Sulfur + Hydrogen 
6. Sulfur + Oxygen 
7. Phosphorus + Chlorine 
8. Silicon + Oxygen 
9. Carbon + Silicon 
10. Potassium + Bromine 
11. Sodium + Oxygen 
12. Aluminum + Iodide 
13. Iron + Sulfide 
14. Zinc + Fluoride 
15. Carbon monoxide + Oxygen 
16. Sulfur dioxide + Oxygen 
17. Diphosphorus trioxide + Oxygen 
18. Nitrogen monoxide + Oxygen 
19. Carbon dioxide + Water 
20. Sulfur trioxide + Water 
21. Potassium oxide + Water 
22. Iron(III) oxide + Water 
23. Tetraphosphorus decoxide + Water 
24. Nitrogen dioxide + Water 
25. Calcium oxide + Water 

Compared with the freezing-point depression of a 0.01 m c6h12o6 solution, the freezing-point depression of a 0.01 m nacl solution is

A3.37-mg sample of protein was chemically digested to convert its nitrogen into ammonia and then diluted to 100.0 ml. then 10.0 ml of this solution was placed in a 50-ml volumetric flask and treated with 5 ml of phenol solution plus 2 ml of sodium hypochlorite solution. the sample was diluted to 50.0 ml, and the absorbance at 625 nm was measured in a 1.00-cm cuvette and found to be 0.486. for reference, a standard solution was prepared from 10.0 mg of nh4cl (molar mass = 53.49 grams/mole) dissolved in 1.00 l of water. then 10.0 ml of this standard was placed in a 50-ml volumetric flask, treated in the same manner as the unknown, and the absorbance found to be 0.323. finally, a reagent blank was prepared using distilled water in place of unknown, it was treated in the same manner as the unknown, and the absorbance found to be 0.076. calculate the weight percent of nitrogen in the protein.

Areaction is first order with respect to reactant x and second order with respect to reactant y. which statement describes the rate law for this reaction?