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Answer :
Final answer:
The change in specific internal energy of the gas is approximately 3.6458 kJ/kg.
Explanation:
To calculate the change in specific internal energy, we need to use the equation: Δu = W/m.
Given:
- Volume of the tank (V) = 0.8 m³
- Work done on the gas (W) = 5.25 W
- Time (t) = 30 minutes = 30 × 60 seconds = 1800 seconds
- Density of the gas (ρ) = 1.80 kg/m³
First, we need to calculate the mass of the gas using the formula: m = ρV.
Substituting the given values, we have:
m = 1.80 kg/m³ × 0.8 m³ = 1.44 kg
Next, we can calculate the change in specific internal energy using the formula: Δu = W/m.
Substituting the given values, we have:
Δu = 5.25 W / 1.44 kg = 3.6458 kJ/kg
Therefore, the change in specific internal energy of the gas is approximately 3.6458 kJ/kg.
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