Is the last equation stating that the ratio between k1 and k2 is proportional to the difference of inverse temperature of both reaction since Ea and R are just given constants? Also if this is a combination of two different reactions with k1 and k2, then why is there only one Ea? Shouldn't there be also Ea for the other reaction? I'm sort of lost and not understanding the significance of this equation.
activation energy is in relation to TWO states. aka the energy needed to go between these two states. thus two states of being and one activation energy to go between them
I love his style of teaching! It makes it easier to understand
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These videos are great for midterms. Thank you!
Thank you so much for posting these! Really helped 🙏🏽
You're very welcome Meghan; so glad they helped!
Is the last equation stating that the ratio between k1 and k2 is proportional to the difference of inverse temperature of both reaction since Ea and R are just given constants? Also if this is a combination of two different reactions with k1 and k2, then why is there only one Ea? Shouldn't there be also Ea for the other reaction? I'm sort of lost and not understanding the significance of this equation.
activation energy is in relation to TWO states. aka the energy needed to go between these two states. thus two states of being and one activation energy to go between them
“Shaq is still gonna die” 🤣⚰️ caught me off guard.
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You are the BEST
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wow thanks
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