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Test: Laws of Chemical Combination (April 18) - NEET MCQ


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Test: Laws of Chemical Combination (April 18) - Question 1

According to Dalton’s atomic theory chemical reactions involve:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 1

Chemical reactions involve merely the combination, separation, or rearrangement of atoms and that during these processes atoms are not subdivided, created, or destroyed.

Test: Laws of Chemical Combination (April 18) - Question 2

According to the Avogadro’s law, equal volumes of gases at the same temperature and pressure should contain:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 2

Avogadro's law states that, "equal volumes of all gases, at the same temperature and pressure, have the same number of molecules". For a given mass of an ideal gas, the volume and amount (moles) of the gas are directly proportional if the temperature and pressure are constant.

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Test: Laws of Chemical Combination (April 18) - Question 3

Law of definite proportions is given by:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 3

Law of Definite Proportions:

1. The law of definite proportions was given by French chemist Joseph Proust in 1799.

2. The law of definite proportions is also known as the law of definite or fixed proportion.

Test: Laws of Chemical Combination (April 18) - Question 4

Law of constant composition does not hold good for:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 4

Law of definite proportions or Proust's law states that a chemical compound always contain the same proportion of elements by mass.
Although the law holds good for a large no. of cases, it is not universally true. It's not true in the case of non - stoichiometric compounds.

Test: Laws of Chemical Combination (April 18) - Question 5

What is incorrect about the Law of conservation of mass?

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 5

The law of definite proportions, also known law of definite composition, states that regardless of the amount, a pure compound always contains the same elements in the same proportions by mass. Law of multiple proportions, also known as Dalton s Law, states that when one element combines with another to form more than one compound, the mass ration of the elements in the compounds are simple whole numbers of each other.

Test: Laws of Chemical Combination (April 18) - Question 6

A statement which is not a part of Dalton’s atomic theory is:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 6

Atoms are composed of particles called protons, electrons and neutrons. Protons carry a positive electrical charge, electrons carry a negative electrical charge and neutrons carry no electrical charge at all. The protons and neutrons cluster together in the central part of the atom, called the nucleus, and the electrons 'orbit' the nucleus. A particular atom will have the same number of protons and electrons and most atoms have at least as many neutrons as protons.

Test: Laws of Chemical Combination (April 18) - Question 7

A compound prepared by any method contains the same elements in the fixed ratio by mass. The given statement is known as:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 7

Law of Definite Proportions
The discovery that mass was always conserved in chemical reactions was soon followed by the law of definite proportions, which states that a given chemical compound always contains the same elements in the exact same proportions by mass. As an example, any sample of pure water contains 11.19%11.19% hydrogen and 88.81%88.81% oxygen by mass. It does not matter where the sample of water came from or how it was prepared. Its composition, like that of every other compound, is fixed.

Test: Laws of Chemical Combination (April 18) - Question 8

Law of conservation of mass was given by:

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 8

The Law of Conservation of Mass (or Matter) in a chemical reaction can be stated thus:
In a chemical reaction, matter is neither created nor destroyed.
It was discovered by Antoine Laurent Lavoisier (1743-94) about 1785. However, philosophical speculation and even some quantitative experimentation preceeded him. In addition, he was certainly not the first to accept this law as true or to teach it, but he is credited as its discoverer.

Test: Laws of Chemical Combination (April 18) - Question 9

If 6.3 g of NaHCO3 are added to 15.0 g CH3COOH solution, the residue is found to weigh 18.0 g. What will be the mass of CO2 released in the reaction?

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 9

The correct answer is Option B.
The chemical reaction will be:
NaHCO3 + CH3COOH →CH3COONa + H2O + CO2
molar mass:
NaHCO3 = 84
CH3COOH=60
CH3COONa=82
CO2 =44
84gNaHCO3 + 60gCH3COOH → 82gCH3COONa + 44gCO2
Moles of NaHCO3 = 6.3/84= 0.075
Moles of CH3COOH = 15/60= 0.25
∴NaHCO3 is the limited reagent.
Moles of CO2 formed = 0.075
Weight of CO2 = 0.075×44 = 3.3g

Test: Laws of Chemical Combination (April 18) - Question 10

Zinc sulphate contains 22.65% zinc and 43.9% water of crystallisation. If the law of constant proportions is true then the weight of zinc required to produce 20 g of the zinc sulphate crystals will be

Detailed Solution for Test: Laws of Chemical Combination (April 18) - Question 10

20 g of zinc sulphate

x = (20 * 22.65)/100

x = 4.53g

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