CONTENT
- Boyle’s law
- Charles’ law
- Ideal gas equation
- Dalton’s law of partial pressure
BOYLE’S LAW
It states that the volume of a fixed mass of gas is inversely proportional to the pressure provided the temperature remains constant.
Mathematically,
V α 1/P
V = k/P
PV = k
Hence, P1V1 = P2V2
EXPLANATION OF BOYLE’S LAW USING THE KINETIC THEORY
When the volume of fixed mass of gas is decreased, the molecules of the gas will collide with each other more rapidly. This gives rise to an increase in pressure. However, if molecules are farther apart the number of collisions for unit time decreases, resulting in a decrease in pressure.
CHARLES’ LAW
Charles’ law states that the volume of a fixed mass of gas at constant pressure is directly proportional to its temperature in the Kelvin scale.
EXPLANATION OF CHARLES’ LAW USING THE KINETIC THEORY
When a given gas is heated at constant pressure, the molecules acquire more kinetic energy and move faster. They collide with one another and with the walls of the container more frequently. To maintain the same number of collisions on the walls of container (i.e. keep the pressure constant) the volume of the gas increases.
EVALUATION
1. State Boyle’s law
2. Explain Charles’ law using the kinetic theory
GENERAL GAS EQUATION
Boyle’s and Charles’ laws are combined into a single expression known as the general gas equation which can be expressed mathematically as
P1V1 = P2V2
T1T2
IDEAL GAS EQUATION
This equation states that for an ideal gas PV/T is a constant.
That is, PV/T = R (R = molar gas constant)
PV = RT
That is, for n mole of a gas, the equation becomes
PV = nRT
DALTON’S LAW OF PARTIAL PRESSURE
This law state that in a mixture of gases which do not react chemically together, the total pressure exerted by the mixture of gases is equal to the sum of the partial pressure of the individual gases that make up the mixture.
GENERAL EVALUATION/REVISION
- State Dalton’s of partial pressure.
- Calculate the pressure at 27oC of 16.0g O2 gas occupying 2.50dm3
- A certain mass of hydrogen gas collected over water at 10oC and 760mmHg pressure has a volume of 37cm3. Calculate the volume when it is dry at s.t.p (Saturated vapour pressure of water at 10oC =1.2mmHg)
- Determine the number of electrons, protons and neutrons in each of the following: 39K19, 63.5Cu29.
- If an element R has isotopes 60% of 12R6 and 40% xR6 and the relative atomic mass is 12.4, find x.
READING ASSIGNMENT
New School Chemistry for Senior Secondary School by O.Y. Ababio, Pg 78-85.
WEEKEND ASSIGNMENT
- Kelvin temperature can be converted into temperature by A.oC = K-273 B. K + 273 C.oC + 273/K D. K + 273/oC
- The pressure exerted by a gas is a result of the A. continuous random motion of its particle.
B. bombardment of the walls of the container by its molecules. C.expansion of the gas molecules
D. collision between the gas molecules.
- From the ideal gas equation, PV = nRT, the unit of n is A. atmdm3B. atmdm3/K C. mole D. K/mole
- What will be the new volume (V) if the new pressure is halved and the initial pressure remain the same the sameA. 2P1V1 = P2V2B. P1V1 = 2P2V2C. P1V1/2= P2V2/2 D. P1V1 = P2V2/2
- A fixed mass of gas of volume 546cm3 at 0oC is heated at constant pressure. What is the volume of the gas at 2oC? A. 550cm3B. 560cm3C. 570cm3D. 580cm3
THEORY
- A given mass of nitrogen is 0.12dm3 at 60oC and 1.01 x 105Nm-2. Find its pressure at the same temperature if its volume is changed to 0.24dm3
- 272cm3 of CO2 was collected over water at 15oC and 782mmHg pressure. Calculate the volume of dry gas at s.t.p (saturated vapour pressure of water at 15oC is 12mmHg).
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