which statement explains the relationship between the amount of energy it takes to break a bond and the amount of energy released when the same bond is formed?
29 answers
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yea... what's the answer?
ANSWER - The amount of energy it takes to break a bond is always greater than the amount of energy released when the bond is formed
Which fact must be true if a relationship is endothermic?
More energy is needed to form the bonds on the product side than to form the bonds on the reactant side.
The energy of each bond on the reactant side is greater than the energy of each bid on the product side.
The bond energy released by breaking the bonds in the reactant S is greater than the bond energy used to form the products.
More bond energy is absorbed on the reactant side than released on the product side.
More energy is needed to form the bonds on the product side than to form the bonds on the reactant side.
The energy of each bond on the reactant side is greater than the energy of each bid on the product side.
The bond energy released by breaking the bonds in the reactant S is greater than the bond energy used to form the products.
More bond energy is absorbed on the reactant side than released on the product side.
Can someone please help me I kinda need help right now
@Bun, did you figure out the answers?
No
I really wish someone will help. It’s mainly to check my answers to see what I got wrong before actually submitting it.
1. The amount of energy are always equal.
2. More bond energy is absorbed on the reactant side than released on the product side.
3. B. Two N=-N and three H-H
4. 854
5. N2+O2----->2NO
Unit 4 lesson 13 quick check.
2. More bond energy is absorbed on the reactant side than released on the product side.
3. B. Two N=-N and three H-H
4. 854
5. N2+O2----->2NO
Unit 4 lesson 13 quick check.
The amounts of energy are always equal.
More bond energy is absorbed on the reactant side than released on the product side.
two N≡N and three H–H
854
N2 + O2 → 2NO
I just took the quick check trust me :)
More bond energy is absorbed on the reactant side than released on the product side.
two N≡N and three H–H
854
N2 + O2 → 2NO
I just took the quick check trust me :)
HONESTLY BRO I DIDNT GET THIS GIRLS NAME AT THE WELCOME EVENT IM SO MAD DAWGY
which one did you go to
dont worry is correct
thx peeps:) @Dont worry is correcto!
*spam required*
hbwucblluienlbjhkmgjvbrnkkuemirknhkxyrytrewarsetdrytfyu
*spam required*
hbwucblluienlbjhkmgjvbrnkkuemirknhkxyrytrewarsetdrytfyu
Thanks this was really helpful!!!!!! :D
Don’t worry and Witre both have the same answers but GG 100% though thanks to them.
My name means just know not just joking. So i’m truthful.
@Dont worry is correct just took the QC and 100%
GUYS HES RIGHT!!!! He's right! but remember to look at the answers and choose what letter that answer is because if he says B it might be C for you, but still the right answer so make sure u read the answer not just the letters
1.D
2.C
3.C
4.A
5.C
2.C
3.C
4.A
5.C
L answers + ratio + YBs answer better + bozo
Witre is right I got a 100%
Dont worry is our savior from above.
don't worry is right 5/5 thank you
dont worry is 100% right i just took the quick check for changes in bond energy lesson 2 unit 4
yes
mann i met a girl at a connections event it's going good :)
Y’all are the best fr yuh
@Witre and @dont worry
They are both correct as of Tuesday/ February 7/ 2023/ 0238 hours mil time/
2:38 am civie time
If you want to verify:
quizlet (insert dot com here) /656186376/changes-in-bond-energy-flash-cards/
Sorry for weird format, links are blocked.
They are both correct as of Tuesday/ February 7/ 2023/ 0238 hours mil time/
2:38 am civie time
If you want to verify:
quizlet (insert dot com here) /656186376/changes-in-bond-energy-flash-cards/
Sorry for weird format, links are blocked.
1 answer