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2 years ago

Watch the video to determine which of the following relationships are correct according to Boyle’s law.

Chemistry

1 answer:

scoray [572]2 years ago

3 0

Answer:

Part A

Boyle's Law is given mathematically as

P ∝(1/V) or V ∝(1/P)

Options 4 and 5, if they are properly written.

Part B

At constant temperature, and according to the Boyle's law for an ideal gas,

A. What can cause a Volume increase is a corresponding decrease in pressure.

B. What can cause a Volume decrease is a corresponding increase in pressure.

C. The Volume is unchanged if the pressure of the gas is unchanged too.

Part C

The pressure when the gas occupies a volume of 5.0 L = 40 atm

Part D

The pressure when the gas occupies a volume of 4.5 L = 36 atm

Explanation:

Part A

Boyle's Law states that at constant temperature, the pressure of an ideal gas is inversely proportional to the volume occupied by the gas.

So, mathematically, Boyle's Law is given as

P ∝(1/V) or V ∝(1/P)

Part B

Inverse relationship between two quantities means that the higher the value of one of the quantities go, the lower the value of the other quantity goes and vice versa.

So, at constant temperature, and according to the Boyle's law for an ideal gas.

A. What can cause a Volume increase is a corresponding decrease in pressure.

B. What can cause a Volume decrease is a corresponding increase in pressure.

C. The Volume is unchanged if the pressure of the gas is unchanged too.

Part C

A certain gas occupies a volume of 20 L when the applied pressure is 10 atm, find the pressure when the gas occupies a volume of 5.0 L.

According to Boyle's Law for an ideal gas,

P ∝(1/V)

P = (k/V)

where k is the constant of proportionality

PV = k

Therefore,

P₁V₁ = P₂V₂ = k

P₁ = 10 atm

V₁ = 20 L

P₂ = ?

V₂ = 5.0 L

10 × 20 = P₂ × 5

P₂ = 40 atm

Part D

If a certain gas occupies a volume of 18 L when the applied pressure is 9.0 atm , find the pressure when the gas occupies a volume of 4.5 L

P₁V₁ = P₂V₂ = k

P₁ = 9.0 atm

V₁ = 18 L

P₂ = ?

V₂ = 4.5 L

9 × 18 = P₂ × 4.5

P₂ = 36 atm

Hope this Helps!!!

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(e) See below

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(e ) When handling acids such as HCl it is required the use of safety goggles, acid resistant gloves and lab coat. It is also required to work under a safety hood since the vapors of HCl are toxic when inhaled.

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V₁M₁ = V₂M₂ ⇒ V₁ = V₂M₂ /M₁

where V₁ is the volume of the 12.3 M HCl solution we are going to dilute, and V₂ is the 50.0 mL solution 2.0 M needed.

V₁ = 50.0 mL x 2.0 M / 12.3 M = 8.13 mL

Notice that in the above equation we do not need to convert the mL to L since V appears in both sides of the equation and will give us the volume in mL.

Now 8.13 mL is difficult to measure with a 10 ml graduated cylinder where we can read to 0.2 mL unless we accept the error.

So we need to calculate the mass of concentrated acid required by computing its density

We can calculate the density of the 12.3 M solution using a tared 10 mL graduated by taking say 10 mL of the the solution, weighting it, and calculating the density = mass of solution / volume.

Knowing the density we can calculate the mass of 12.3 M a volume of 8.13 mL weighs.

Place approximately 35 mL of distilled water in the volumetric flask and tare in the balance.

Add say 7 mL of 12.3 M HCl in the graduated cylinder to the volumetric flask being careful towards the end to add the last portions using the dropper to complete the required mass using the balance.

Finally dilute to the 50 mL mark.

Again use all of the safety precautions indicated above and avoid any contact of the acid with the skin.

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