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Fixed mass of an ideal gas contained in `10.0L` sealed rigid vessel at `1atm` is heated from `-73^(@)C` to `27^(@)C`. Calculate change in Gibbs enegry if entropy of gas is a function of temperature as `S = 2 +10^(-2)T (J K^(-1)). (1atmL = 0.1kJ)`

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To calculate the change in Gibbs energy (ΔG) for the given ideal gas in a sealed rigid vessel, we will follow these steps: ### Step 1: Convert Temperatures to Kelvin The initial temperature (T1) is given as -73°C and the final temperature (T2) is 27°C. We need to convert these temperatures to Kelvin. \[ T1 = -73 + 273 = 200 \, K \] ...
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