u r awesome

Correct thats what i was thinking in triatomic we have 3 translational and 3 rotatory here we will have an addition vibratory so its gonna be 3/7*3/2kt if i am not wrong

That's what I thought too

I thought so too

3(Translational) + 2(Rotational) + 2(Vibrational) = 7 Diatomic gases at high temp have 7 degree of freedom in real life, so it's not imaginary.

But vibrational energy is a potential energy and not kinetic energy. If he said total energy, then no confusion. 🤔

@@nellvincervantes6233 vibrational contains one potential and one kinetic, so I guess there is one extra degree of freedom to think about.

mono atomic gases have three degree di atomic gases have five degree tri atomics have seven degree

@@Bereket2Dwhat about something like propene(C3H6) ?

Ong

Who put chemistry in physics?

It might be because I2 is a bigger molecule. It takes up more heat to vibrate it and so on.

the full name is specific heat capacity. specific heat capacity and molar heat capacities are quite different. specific heat capacity expresses heat required to raise temp per unit temperature (1 Kelvin) and per unit "mass" (1 KG). molar heat capacity expresses heat required to raise temp per unit temperature (1 Kelvin) and per unit "moles" (1 mol). I assume I dont need to explain what mole is. while its easier to use KG and by extension Specific heat capacity, it is important to realize KG is a unit we devised for trade, macro atomic phenomenon deals with chunks of molecules in integral multiples moles(number of molecular weight) and NUMBER OF equivalent weights not KG so molar heat capacity is necessary to explain them.

translational means when a body moves more distance than its size and rotational is when it moves about in its axis. Kinetic energy can be translational and rotational.(correct me if I'm wrong😅)

Cp = 5/2 R

Cp will always be one R greater than Cv, so if Cv = 3/2R as for a monotonic, Cp = 3/2R + R = 5/2R

His question is why the uploader used Cv instead of Cp. Thats also my confusion too.

Hmmm maybe because, from equations: dU = Tds - PdV dH = Tds + VdP Since theres no applied work, PdV = 0. Hence, dU = Tds We know that dU = Cv*dT and dS = Q/T (for closed system assuming no entropy generated) Cv*dT = Q And also for ideal gas (mono atomic gas), dU = (3/2)kdT Also, dH = Cp*dT Note that Cp = Cv + R/m (where m = molar mass of molecule) (Im not sure about this one) We can conclude also that VdP = (R/m)dT.

katelyn williams no youre wrong, for diatomic gases , it is 5 and triatomic bent its 6

@@stephenhawks3941 it is 7, but in general, the two vibrational modes of a diatomic gas molecule are frozen out at room temperature

3 are linear, i.e. along x,y, and z axes. the other 2 are rotational motions, 1 where the axis of rotation is along the bond and 1 where the axis of rotation is perpendicular to bond.

kzbin.info/www/bejne/oJzIgnSFbd10pMk

@@nabanitagoswami6652 thank you