CORRECTIONS: 1) 5:24 The problem statement is supposed to use 6 m/s as the inlet velocity, not 5 m/s! All the calculations and results are consistent with vi = 6 m/s. 2) 7:51 The equation should read volumetric flow rate OVER velocity, not times velocity; the value for m dot e is correct, though.
@ 7:55 you multiplied volumetric flow rate by the specific volume when you should have divided it, to obtain the mass flow rate. The numbers were correct though. Thanks for making these videos you're saving my thermodynamics grade 🙏🙏🙏
How does pressure remain constant in the superheater phase of the boiler or air conditioning running on rankin cycle? Has it got something to do with the concept of workflow or specific volume? Kindly remove this bothering. Confusion?
CORRECTIONS: 1) 5:24 The problem statement is supposed to use 6 m/s as the inlet velocity, not 5 m/s! All the calculations and results are consistent with vi = 6 m/s. 2) 7:51 The equation should read volumetric flow rate OVER velocity, not times velocity; the value for m dot e is correct, though.
This is absolutely amazing and thorough while still being short. Great job and thank you!!
@ 7:55 you multiplied volumetric flow rate by the specific volume when you should have divided it, to obtain the mass flow rate. The numbers were correct though. Thanks for making these videos you're saving my thermodynamics grade 🙏🙏🙏
lmao iam so confused at that how could that even possible. thank you for pointing me out bro
Amazing video thank you
I don't get at 7.44 why is the m dot i sign changes negative
How does pressure remain constant in the superheater phase of the boiler or air conditioning running on rankin cycle?
Has it got something to do with the concept of workflow or specific volume?
Kindly remove this bothering. Confusion?
Eres un cabron d bueno con estos videos. Muchas gracias