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5.6dm^(3) of an unknown gas at S.T.P req...

`5.6dm^(3)` of an unknown gas at `S.T.P` requires 52.25J of heat to raise its temperature by `10^(@)C` at constant volume. Calculate `C_(V),C_(P)` and atomicity of the gas

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To solve the problem of calculating \( C_V \), \( C_P \), and the atomicity of the unknown gas, we can follow these steps: ### Step 1: Calculate the number of moles of the gas Given that \( 5.6 \, \text{dm}^3 \) of gas is at Standard Temperature and Pressure (STP), we know that \( 22.4 \, \text{dm}^3 \) of an ideal gas corresponds to 1 mole. Therefore, we can calculate the number of moles (\( n \)) of the gas using the formula: \[ n = \frac{V}{22.4} \] ...
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