Question Solved1 Answer Determine the velocity of a detonation wave propagating through an ideal gas mixture having a constant specific heat, Cp, of 1200 J/kg-K. The mixture is initially at 2 atm and 500 K. The heat release per unit mass of mixture is 3*109 J/kg and the mixture molecular weight is 29 kg/kmol:

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Transcribed Image Text: Determine the velocity of a detonation wave propagating through an ideal gas mixture having a constant specific heat, Cp, of 1200 J/kg-K. The mixture is initially at 2 atm and 500 K. The heat release per unit mass of mixture is 3*109 J/kg and the mixture molecular weight is 29 kg/kmol:
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Transcribed Image Text: Determine the velocity of a detonation wave propagating through an ideal gas mixture having a constant specific heat, Cp, of 1200 J/kg-K. The mixture is initially at 2 atm and 500 K. The heat release per unit mass of mixture is 3*109 J/kg and the mixture molecular weight is 29 kg/kmol:
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Given datapg_(1)Actermine the velocity of a detonation waveSol:-Given Sfecific theat at constantRressure C_(p)=1200J//kg-Kmixture in initially at 2atm and 500k (T_(1))the theat release per unit man ofmixture n(g)=3xx10^(6)J//kgmolecular weight n(m)29kg//kmolsow,universal gas constant etaR=8.314kJ//kmol.kthen the gas constant of cirulure in{:[R=(( bar(R)))/(M)=(8.314)/(29)quad(:'" where "n=29kg//k.md)],[=0.2866kJ//kg*k.]:}the heat release R ... See the full answer