Thank God you made this video! You have no idea how important it is for any chemistry, biochemistry, or physics major to understand this! I've had such a hard time getting this explanation from actual professors. If you don't mind me asking what book did you get this from? This video is so important for so many reasons. You literally made my day.
When two atoms or molecular bond is formed and energy is released, what is the released energy's form? I suppose thermal, but to be more specific does it come in as photon or some kind of recoil?
OK. I got it. The molecule with unstable bond can have energy. Now, how does the energy look like when it is released? What does it mean "released"? If it is not in the molecule of its components, where is it? How can this energy be used for something? There are three phosphates in ATP. Why is the energy stored in the bond with the third phosphate?
Wrong. The binding energy of the broken bond is less than the binding energy of the new bond. If ATP is broken and water not added, energy must be added. Duh.
Thank God you made this video! You have no idea how important it is for any chemistry, biochemistry, or physics major to understand this!
I've had such a hard time getting this explanation from actual professors.
If you don't mind me asking what book did you get this from?
This video is so important for so many reasons. You literally made my day.
thanks from the heart
THANK YOU! Finally answered a nagging question I’ve had for a long time :)
Thanks it is really helpful!
When two atoms or molecular bond is formed and energy is released, what is the released energy's form? I suppose thermal, but to be more specific does it come in as photon or some kind of recoil?
OK. I got it. The molecule with unstable bond can have energy. Now, how does the energy look like when it is released? What does it mean "released"? If it is not in the molecule of its components, where is it? How can this energy be used for something? There are three phosphates in ATP. Why is the energy stored in the bond with the third phosphate?
Wrong. The binding energy of the broken bond is less than the binding energy of the new bond. If ATP is broken and water not added, energy must be added. Duh.
Explain more pleaaaase