Generate Quiz 686BE3E8C8A3D

In 50% KOH, CO2 is chemically absorbed during combustion analysis.

Meanwhile, due to the fact that Mg(CLO4)2 is hygroscopic, H2O vapors are physically absorbed in it.

The quantity of products generated in a chemical reaction is regulated by the limiting reactant. The maximum amount of product that can be formed is determined by the limiting reactant, which is the reactant that is consumed entirely first. At the end of the reaction, the remaining reactants—known as excess reactants—are left over after not being fully consumed.

Thus, products are the solution.

Here’s an illustration. Assume the following chemical reaction occurs:

2H2+ O2 → 2H2O

For every mole of oxygen gas, two moles of hydrogen gas are needed for this reaction. The hydrogen gas will be the limiting reactant if we begin with one mole of hydrogen gas and two moles of oxygen gas.

Since 1 mole of CO2 is equal to 44g and 1 mole of any other gas occupies 22.4 dm3,

CO2: Amount

22.4 dm3 for 44g

1g is equal to 22.4/44

2.24 dm3 = 4.4 = 22.4/44 x 4.4

An atom’s mass falls between 1 x 10-27 and 1 x 10-25.Option D is therefore accurate.

An atom’s mass number is the total number of protons and neutrons that are found inside its nucleus. For instance, because the nucleus of carbon contains six protons and six neutrons, its mass number is 12.01 amu.

One mole of MF2 was created from one mole of metal.

∴ 0.7 mole MF2 molecule = 0.7 mole of metal formed

∵ Each molecule of MF2 contains = 2F atoms

1.4 moles of F atoms are contained in 0.7 moles of MF2 molecules, which is equal to 2 x 0.7 moles of F atoms.

Hence, 45 g of MF2 molecule contains 1.4 moles ‘F’ atom.

NaOH is sodium hydroxide.

NaOH’s molar mass is 39.99.

We are aware that

mass/molar mass = number of moles

0.5 = mass/39.99

Mass =19.99

You can write 19.99 g as 20 g.

The formula for empirical mass is 42, or [2(12) + 2(1) + 16].

The molecular mass of C8H8O4 can be obtained by multiplying the empirical formula mass by 4, which yields a molecular mass of 168, which falls between 160 and 170.

The actual yield is lower than the theoretical yield because of side reactions, reversible reactions, and mechanical loss.