Thank you so much. My lab instructor left us with this, something I've never seen before and went "Given the units. Solve for the heat absorbed by the calorimeter"
Excellent example. I am a retired high high school teacher and did an EXCELLENT tutorial that any student having difficulty with this concept would understand!
You really do have the gift of teaching! Your great attitude and reassurance makes for the perfect combination. You taught this wonderfully, Thank you:)
omg. i have been searching the internet on how can i find the amount of heat released by a reaction wherein the two reactants have different initial temperature. i can only see examples that has both reactants have the same initial temperature :((
Hi Amel, I only know of these 2 methods: 1. 2 reactants have the same initial temperature and when mixed they undergo a chemical reaction. On my playlist, thermodynamics, select solutions part 2. Or 2. Two substances have different initial temperatures and when mixed there is a transfer of energy but no chemical reaction. That is like this video. I have not seen a problem with both different initial temperatures and upon mixing undergoes a chemical reaction. Ask your professor for help with that problem if this is the case. ( Make sure your problem with different initial temperatures will indeed undergo a chemical reaction.) In the lab, if mixing 2 solutions that undergo a chemical reaction, let both solutions sit at room temperature so they have the same initial temperature before mixing. I hope that helps!!
I wish you were my chemistry teacher! You explained that so well! Thank you SO much!
Thank you so much. My lab instructor left us with this, something I've never seen before and went "Given the units. Solve for the heat absorbed by the calorimeter"
Panic! I am so glad this was helpful. Great job looking for outside resources:)
Excellent example.
I am a retired high high school teacher and did an EXCELLENT tutorial that any student having difficulty with this concept would understand!
That is high praise. Julie thank you for your feedback! It means so much😊
You helped me understand this lab so well, i've had to teach myself Chemistry and Physics thanks to COVID. Thank you!!!
Let me know if I can point you to other videos if you need additional help! I’m proud of you!!😊
Thank you! I like the way you explained this topic. Your channel will grow, I bet.
you’re literally god sent😭😭 tysmmmm, this was so so so soooo helpful!!
Hi Krispy Kush, I’m so glad!! Have a great experience in chemistry!😊
You really do have the gift of teaching! Your great attitude and reassurance makes for the perfect combination. You taught this wonderfully, Thank you:)
Jessica, thank you for your kind words. I hope your class goes well!!💕
Ma'am you are fabulous. I wish you were my chemistry teacher. Your explanation is so well. Thank you so much ma'am. Support from Assam,India 🙏
Hi Anamika's ArtMix, Thank you for your comment. I wish you were my student too! Many blessings to you in Assam, India:)
Amazing video! My professor does not explain things well but you teach very clearly
This was beautiful! Thank you for explaining so well!
Hi 7eguegue, I’m so glad you liked it! Thank you for your comment!😊
WOW! This is really helpful! You’re so good at teaching this. Thank you so much
Hi Gil! I’m glad it was helpful. I hope your class goes well😊
Just wanted to say thank you for the help on this, I don't ever understand something in chemistry as well as I did here.
Janek, I’m so glad. I hope your class goes well. Thanks! 😊
Thank you so much for this. Well explained.
Omg this saved me. Thank you 🙌🏼
thank you so much, this helped me out so much for my lab!!
I’m so glad! Enjoy your lab 😊
huhu this helped me outta chemistry depression 😬😂
may i ask further question?
Yes😊
omg. i have been searching the internet on how can i find the amount of heat released by a reaction wherein the two reactants have different initial temperature. i can only see examples that has both reactants have the same initial temperature :((
Hi Amel, I only know of these 2 methods: 1. 2 reactants have the same initial temperature and when mixed they undergo a chemical reaction. On my playlist, thermodynamics, select solutions part 2. Or 2. Two substances have different initial temperatures and when mixed there is a transfer of energy but no chemical reaction. That is like this video. I have not seen a problem with both different initial temperatures and upon mixing undergoes a chemical reaction. Ask your professor for help with that problem if this is the case. ( Make sure your problem with different initial temperatures will indeed undergo a chemical reaction.) In the lab, if mixing 2 solutions that undergo a chemical reaction, let both solutions sit at room temperature so they have the same initial temperature before mixing. I hope that helps!!
THANK YOUUUU ❤️❤️❤️
Thanks so much!!
from Iraq
thanks ❤
Thank you
Thanks!
Joseph I hope your class goes well!!
this was helpful
I’m so glad. I hope you have a good experience in chemistry😊
I don’t know u but I really like u i need some help please in related to bomb calorimeter