A gas contained in a steel tank has a pressure of 1.5 atm at a temperature of 320 k. what will be the gas pressure when the temperature changes to 450 k? a gas contained in a steel tank has a pressure of 1.5 atm at a temperature of 320 k. what will be the gas pressure when the temperature changes to 450 k? 1.5 atm 0.47 atm 0.94 atm 2.1 atm 1.1 atm
Answers
P2 =
where, P and T stands for pressure and temperature respectively, terms 1 and 2 indicates initial and final pressure/temperature respectively.
Given that, P1 = 1.5 atm, T1 = 320 K, T2 = 450 K,
∴P2 =
Final answer:
Using Gay-Lussac's Law, we calculate that when the temperature of a gas increases from 320 K to 450 K, the pressure of the gas will increase from 1.5 atm to 2.1 atm, assuming the volume and the amount of gas remain constant.
Explanation:
To answer the question, we need to use the concept in physics called Gay-Lussac's Law. This law states that the pressure of a given amount of gas held at a constant volume is directly proportional to the Kelvin temperature. It's also important to remember that when we're dealing with gases, temperatures have to be in Kelvin for our calculations to work.
Given that, we know that the initial pressure (P1) is 1.5 atm, the initial temperature (T1) is 320K, and the final temperature (T2) is 450K. We want to find the final pressure (P2). According to Gay-Lussac's law, this can be calculated using the following equation: P1/T1 = P2/T2.
Thus, P2 = P1 * T2 / T1 = 1.5 atm * 450K / 320K = 2.1 atm.
So, the gas pressure will be 2.1 atm when the temperature increases from 320 K to 450 K, assuming that the volume and the amount of gas remain constant.
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Scientific theory is an in-depth explanation of the observed phenomenon. A law is a statement about an observed phenomenon or a unifying concept.
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The new volume of the gas if the temperature is increased to the given value is 67.68 milliliters.
What is Charles's law?
Charles's law states that "the volume occupied by a definite quantity of gas is directly proportional to its absolute temperature.
It is expressed as;
V₁/T₁ = V₂/T₂
Given the data in the question;
- Initial temperature of gas T₁ = 315.1K
- Initial volume of gas V₁ = 56.05mL = 0.05605L
- Final temperature T₂ = 380.5K
- Final volume V₂ = ?
V₁/T₁ = V₂/T₂
V₂ = V₁T₂ / T₁
V₂ = ( 0.05605L × 380.5K ) / 315.1K
V₂ = 21.327025LK / 315.1K
V₂ = 0.06768L
V₂ = 67.68 mL
The new volume of the gas if the temperature is increased to the given value is 67.68 milliliters.
Learn more about Charles'slaw here: brainly.com/question/12835309
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Answer:
Given: V1 = 56.05mL T1= 315.1K T2= 380.5K
Unknown: V2=?
Formula: V2=V1T2/T1
Solution: V2= 56.05mL x 380.5K/315.1K
Answer: V2=67.68mL
Explanation:
Answers
The enthalpy change for dissolving this salt on a energy per mass is 136.32 J/g
How to determine the mass of the water
- Density of water = 1 g/mL
- Volume of water = 75 mL
- Mass of water =?
Mass = Density × Volume
Mass of water = 1 × 75
Mass of water = 75 g
How to determine the heat absorbed by the solution
- Mass of water = 75 g
- Mass of salt = 2.50 g
- Mass of solution (M) = 75 + 2.5 = 77.5 g
- Temperature change (ΔT) = 0.93 °C
- Specific heat capacity of the solution = 4.184 J/gºC
- Heat of solution (Q) =?
Q = MCΔT
Q = 77.5 × 4.184 × 0.93
Q = 301.5618 J
How to determine the heat consumed by the calorimeter
- Heat capacity of the calorimeter (C) = 42.2 J/ºC
- Temperature change (ΔT) = 0.93 °C
- Heat by calorimeter (H) =?
H = CΔT
H = 42.2 × 0.93
H = 39.246 J
How to determine the total heat released
- Heat of solution (Q) = 301.5618 J
- Heat by calorimeter (H) = 39.246 J
- Total heat =?
Total heat = 301.5618 + 39.246
Total heat = 340.8078 J
How to determine the enthalpy change
- Total heat = 340.8078 J
- Mass of salt = 2.5 g
- Enthalpy change (ΔH) =?
ΔH = Total heat / mass
ΔH = 340.8078 / 2.5
ΔH = 136.32 J/g
Learn more about heat transfer:
Answer : The enthalpy change for dissolving this salt on a energy per mass basis is 132.4 J/g
Explanation :
Heat released by the reaction = Heat absorbed by the calorimeter + Heat absorbed by the water
where,
q = heat released by the reaction
= heat absorbed by the calorimeter
= heat absorbed by the water
= specific heat of calorimeter =
= specific heat of water =
= mass of water =
= change in temperature =
Now put all the given values in the above formula, we get:
Now we have to calculate the enthalpy change for dissolving this salt on a energy per mass basis.
where,
= enthalpy change = ?
q = heat released = 331.08 J
m = mass of salt = 2.50 g
Therefore, the enthalpy change for dissolving this salt on a energy per mass basis is 132.4 J/g
Answers
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An electrically neutral atom contains equal number of protons and electrons. Thus if a neutral element X contains 55 protons, it also contains 55 electrons.
True
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True
Explanation:
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