![Synthetic νFν gamma-ray spectra expected from shocked gas clouds with... | Download Scientific Diagram Synthetic νFν gamma-ray spectra expected from shocked gas clouds with... | Download Scientific Diagram](https://www.researchgate.net/publication/345707783/figure/fig4/AS:956527007506435@1605065218500/Synthetic-nFn-gamma-ray-spectra-expected-from-shocked-gas-clouds-with-radii-of-008.jpg)
Synthetic νFν gamma-ray spectra expected from shocked gas clouds with... | Download Scientific Diagram
![Calculate gamma (ratio of C(p) and C(v)) for triatomic linear gas at high temperature. Assume that the contribution of vibrational degree of freedom is 75% : Calculate gamma (ratio of C(p) and C(v)) for triatomic linear gas at high temperature. Assume that the contribution of vibrational degree of freedom is 75% :](https://doubtnut-static.s.llnwi.net/static/web-thumb/17082861_web.png)
Calculate gamma (ratio of C(p) and C(v)) for triatomic linear gas at high temperature. Assume that the contribution of vibrational degree of freedom is 75% :
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![Molar heat capacity of ideal gas (adiabatic exponents is g forprocess T^{2}V=constan t .(a) R(frac {3-2y}{gamma -1}) R(frac {1+gamma }{1-gamma })(b)(c) R(frac {3+2i}{gamma -1}) R(frac {1-gamma }{1-gamma })(d) | Snapsolve Molar heat capacity of ideal gas (adiabatic exponents is g forprocess T^{2}V=constan t .(a) R(frac {3-2y}{gamma -1}) R(frac {1+gamma }{1-gamma })(b)(c) R(frac {3+2i}{gamma -1}) R(frac {1-gamma }{1-gamma })(d) | Snapsolve](https://wb-qb-sg-oss.bytededu.com/edit/D2D1C2BF34BE0CBB783648F7EDD99AEA.jpg)
Molar heat capacity of ideal gas (adiabatic exponents is g forprocess T^{2}V=constan t .(a) R(frac {3-2y}{gamma -1}) R(frac {1+gamma }{1-gamma })(b)(c) R(frac {3+2i}{gamma -1}) R(frac {1-gamma }{1-gamma })(d) | Snapsolve
![For an ideal gas(frac {C_{Pm}}{C_{7m}}=Y) ; of molar mass M, its specific heat capacity at constantvolume is :(a) frac {yR}{(gamma -1)M} frac {gamma }{M(gamma -1)}(b)(c) frac {M}{R(Y-1)} frac {YRM}{y-1}(d) | Snapsolve For an ideal gas(frac {C_{Pm}}{C_{7m}}=Y) ; of molar mass M, its specific heat capacity at constantvolume is :(a) frac {yR}{(gamma -1)M} frac {gamma }{M(gamma -1)}(b)(c) frac {M}{R(Y-1)} frac {YRM}{y-1}(d) | Snapsolve](https://wb-qb-sg-oss.bytededu.com/edit/97167F7E9F85F8004D107FA13326B34D.jpg)
For an ideal gas(frac {C_{Pm}}{C_{7m}}=Y) ; of molar mass M, its specific heat capacity at constantvolume is :(a) frac {yR}{(gamma -1)M} frac {gamma }{M(gamma -1)}(b)(c) frac {M}{R(Y-1)} frac {YRM}{y-1}(d) | Snapsolve
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