CHEMISTRY HIGH SCHOOL

The Haber process can be used to produce ammonia (NH3) from hydrogen gas (H2) and nitrogen gas (N2). The balanced equation for this process is shown below.3H2 + N2 mc025-1.jpg 2NH3

The molar mass of NH3 is 17.03 g/mol. The molar mass of H2 is 2.0158 g/mol. In a particular reaction, 0.575 g of NH3 forms. What is the mass, in grams, of H2 that must have reacted, to the correct number of significant figures?
0.1
0.102
0.10209
0.1021

Answers

Answer 1

Answer:

Answer : The mass of $H_2$ in grams is 0.102g.

Solution : Given,

Molar mass of $NH_3$ = 17.03 g/mole

Molar mass of $H_2$ = 2.0158 g/mole

Given Mass of $NH_3$ = 0.575 g

First we have to calculate the moles of $NH_3$ .

$\text{ Moles of }NH_3=\frac{\text{ Given mass of }NH_3}{\text{ Molar mass of }NH_3}$ = $(0.575g)/(17.03g/mole)$ = 0.0337 moles

The given balanced equation is,

$3H_2(g)+N_2(g)\rightarrow 2NH_3(g)$

From the above reaction, we conclude that

2 moles of $NH_3$ produced from 3 moles of $H_2$

then the 0.0337 moles of $NH_3$ produces to give $(3moles* 0.0337moles)/(2moles)$ moles of $H_2$

The moles of $H_2$ = 0.0505 moles

The mass of $H_2$ = Moles of $H_2$ × Molar mass of $H_2$ = 0.0505 moles × 2.0158 g/mole = 0.10179 g

The mass of $H_2$ in the correct number of significant figures is 0.102 g.

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2 points) Now they feel it is best to have you identify an unknown gas based on its properties. Suppose 0.508 g of a gas occupies a volume of 0.175 L at a temperature of 25.0◦C is held at a pressure of 1.000 atm. What gas is this most likely?

Answers

Answer: chlorine gas

Explanation:

mass = 0.508 g volume = 0.175 L

From ideal gas equation.

PV = nRT

(1.0 atm) × (0.175 L) = n × [0.0821 atm L / (mol K)] × [(273.2 + 25.0) K]

n = 1.0 × 0.175 / (0.0821 × 298.2) mol

n = 0.00715 mol

Molarmass= mass/mole

Molar mass of the gas = (0.508 g) / (0.00715 mol) = 71.0 g/mol

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Which of the following are true concerning the Bohr model?

Answers

The second answer to this is correct

how many grams of silver chromate will precipitate when 150 ml of 0.500 M silver nitrate are added to 100 mL of 0.400 M potassium chromate

Answers

Final answer:

When 150 ml of 0.500 M silver nitrate are added to 100 mL of 0.400 M potassium chromate, a silver chromate precipitate forms. Considering the stoichiometry of the reaction and the quantities of reactants, 24.88 grams of silver chromate will precipitate.

Explanation:

The subject of this question is based on precipitation reactions in Chemistry. Precipitation reactions occur when two solutions combine to form an insoluble solid known as a precipitate. The moles of silver nitrate present in a 150 mL of 0.500 M solution can be calculated using the formula Molarity = Moles ÷ Volume (in Litres).

Thus, Moles of AgNO3 = 0.500 M * 0.15 L = 0.075 mol AgNO3. According to the reaction equation 2AgNO3 + K2CrO4 → 2AgCrO4(precipitate) + 2KNO3, for every mole of K2CrO4, we have two moles of AgNO3. Thus, based on stoichiometry and the given quantities of the reactants, the limiting reactant will be AgNO3, and it will totally react and form the silver chromate precipitate. The moles of Ag2CrO4 formed would therefore also be 0.075 mol. To convert this into grams, we use the molar mass of Ag2CrO4, which is approximately 331.73 g/mol. Hence, grams of Ag2CrO4 = 0.075 mol Ag2CrO4 * 331.73 g/mol = 24.88 g Ag2CrO4.

Learn more about Precipitation Reactions here:

brainly.com/question/29762381

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