Heat Transfer: Introduction to Heat Transfer (1 of 26)

preview_player
Показать описание
UPDATED VERSION AVAILABLE WITH NEW CONTENT:

Рекомендации по теме
Комментарии
Автор

Can you please give us home work problems or Is there is any place where i can find your home work problems?

lakshayamaleti
Автор

This serves humanity(science should be for all), thank you so much whoever had a part in realizing this! The teacher, uploader, camera setter, etc...!

ardahatunoglu
Автор

Received an A last semester in fluids dynamics thanks CPPMechEng videos. Now I'm taking heat transfer I will absolutely go through every single video of this playlist. Thank you very much

YoussefCherqaoui
Автор

Dear Dr Biddle, recorders, class etc.

Honestly the most amazing resource I've discovered online.
All the way from South Africa.

Keep it up.

wihannconradie
Автор

Prof. Biddle is one of the best lecturers of Heat transfer and Fluid mechanics that I have ever seen. keep it up CPP

mahdimansouri
Автор

The ME instructional video series is probably the smartest thing I've EVER SEEN a University do!! And not to mention you're helping people Worldwide, as well !
I'm currently reviewing my Thermo, Fluid Mechanics, & Heat Transfer (I took them over 20 years ago!!) just for my own enrichment. That said It would have been a real pain to breakout the old textbooks and do it the old-fashioned way !!

crookedriver
Автор

Mr. Professor,

I honestly can say u teach very well. You left nothing unsolved in my mind. I hope i can see you and join one of your lectures at least one day.

Greetings from Istanbul Technical University.

sinancoskun
Автор

Blessed be Professor Biddle, you saved my life this semester. I've been killed with PPT for HT and Fluid Mechanics. I wanted to gouge my eyes out with my own pencil till I started watching these lectures.

rachellee
Автор

Currently in communication with my university to reroute my tuition payments to you Professor Biddle

matthewbradbury
Автор

Wish my school would just play these lectures for our heat transfer class periods. One of the best teachers ive ever encountered.

Styrical-gg
Автор

Most recommended Heat Transfer lectures.No long winding Mathematics filled with multi-variable and advanced calculus V but straight to the very essence of the topic itself.

canman
Автор

Hello from Greece!I am currently studying chemical engineering and this course is very helpful.Everything is perfectly explained and the exercises are on point! I am very glad I found your channel! Thank you!

Evelina_Fani
Автор

I L O V E finding a complete lecture series.
Thank you Cal Poly Pomona!

TomOtero
Автор

Dr. Biddle, you rock. Thank you for making Heat Transfer and Fluid Mechanics approachable and intuitive subjects. I cannot express how grateful I am. Greetings from Ecuador.

josepha.cardenas
Автор

I'm from Iraq, studying in the United States, last semester I had fluids mechanics, Dr. Biddle saved me, and I manged to get a B, in 10 days, my heat transfer class will begin, and I'm studying it now with Dr. Biddle. I just wanna say BIG THANK YOU for everyone who contribute in these lectures.

thoalfiqarhafid
Автор

I'm a student at Georgia Tech and these videos are helping me survive heat transfer

Shaqqid
Автор

the first question guys....
1.7) A freezer compartment consists of a cubical cavity that is
2 m on a side. Assume the bottom to be perfectly insulated.
What is the minimum thickness of styrofoam insulation
(k 0.030 W/m K) that must be applied to the top
and side walls to ensure a heat load of less than 500

2nd question
An electric resistance heater is embedded in a long
cylinder of diameter 30 mm. When water with a temperature
of 25C and velocity of 1 m/s flows crosswise
over the cylinder, the power per unit length required to
maintain the surface at a uniform temperature of 90C
is 28 kW/m. When air, also at 25C, but with a velocity
of 10 m/s is flowing, the power per unit length required
to maintain the same surface temperature is 400 W/m.
Calculate and compare the convection coefficients for
the flows of water and air.

3rd question
An instrumentation package has a spherical outer surface
of diameter D 100 mm and emissivity 0.25.
The package is placed in a large space simulation
chamber whose walls are maintained at 77 K. If operation
of the electronic components is restricted to the
temperature range 40 T 85C, what is the range of
acceptable power dissipation for the package? Display
your results graphically, showing also the effect of variations
in the emissivity by considering values of 0.20
and 0.30

robin_theory
Автор

I love this! This is like the stuff we do in my high school engineering class. Love that this content is online.

lazarusmagellan
Автор

an old style, plenty of wisdom and clarity, I hope a lot of years for this marvelous warrior !!!

miguelaphan
Автор

I cannot tell you how grateful I am for these lectures. I would deeply appreciate if you could please post the questions on the website--a link maybe? My daughter (BME maj) learns far more from these videos than from her class.

GoutamDAS-lswb
visit shbcf.ru