One model for the potential energy of a two-atom molecule, where the atoms are separated by a distance r, isU(r) = U₁[(¹)¹² – ()]where ro = 0.8 nm and ₹₁ = 6.1 eV.19Note: 1 eV = 1.6 × 10-¹⁹ J.Some helpful units:[Force] = eV/nm[Energy] = eV[distance] = nmEquilibrium DistanceWhat is the distance between the atoms when the molecule is in stable equilibrium?Click here for a hintreqHint:Hint:Hint:Hint:Hint:ForceIf the distance between the atoms increases from equilibrium by r₁ = 0.35 nm, then what is the force from one atom on the other associated with this potential energy? (Enter your answer aspostive if they repel each other, and negative if they attract.)Fr(req+r₁)Hint:0.89105934nmHint:

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Description: One model for the potential energy of a two-atom molecule, where the atoms are separated by a distance r, isU(r) = U₁[(¹)¹² – ()]where ro = 0.8 nm and ₹₁ = 6.1 eV.19Note: 1 eV = 1.6 × 10-¹⁹ J.Some helpful units:[Force] = eV/nm[Energy] = eV[distance]

Given: U(r) = Uoror12-ror7ro=0.8 nmUo=6.1 eV

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One model for the potential energy of a two-atom molecule, where the atoms are separated by a distance r, is U(r) = Uo[()¹² (¹ where ro 0.8 nm and U₂ = 6.1 eV. Note: 1 eV = 1.6 × 10-19 J. Some helpful units: [Force] = eV/nm [Energy] = eV [distance] = nm Equilibrium Distance What is the distance between the atoms when the molecule is in stable equilibrium? Click here for a hint Teq Hint: ********* Hint: ********* Hint: mm ********* Hint: ......... Hint: Force If the distance between the atoms increases from equilibrium by r₁=0.35 nm, then what is the force from one atom on the other associated with this potential energy? (Enter your answer as postive if they repel each other, and negative if they attract.) Fr(req+r1) = Hint: ********* 0.89105934nm Hint: *********

One model for the potential energy of a two-atom molecule, where the atoms are separated by a distance r, is U(r) = Uo[()¹² (¹ where ro 0.8 nm and U₂ = 6.1 eV. Note: 1 eV = 1.6 × 10-19 J. Some helpful units: [Force] = eV/nm [Energy] = eV [distance] = nm Equilibrium Distance What is the distance between the atoms when the molecule is in stable equilibrium? Click here for a hint Teq Hint: ***** Hint: * Hint: mm * Hint: ......... Hint: Force If the distance between the atoms increases from equilibrium by r₁=0.35 nm, then what is the force from one atom on the other associated with this potential energy? (Enter your answer as postive if they repel each other, and negative if they attract.) Fr(req+r1) = Hint: * 0.89105934nm Hint: *****

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ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

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One model for the potential energy of a two-atom molecule, where the atoms are separated by a distance r, is
U(r) = U₁[(¹)¹² – ()]
where ro = 0.8 nm and ₹₁ = 6.1 eV.
19
Note: 1 eV = 1.6 × 10-¹⁹ J.
Some helpful units:
[Force] = eV/nm
[Energy] = eV
[distance] = nm
Equilibrium Distance
What is the distance between the atoms when the molecule is in stable equilibrium?
Click here for a hint
req
Hint:
Hint:
Hint:
Hint:
Hint:
Force
If the distance between the atoms increases from equilibrium by r₁ = 0.35 nm, then what is the force from one atom on the other associated with this potential energy? (Enter your answer as
postive if they repel each other, and negative if they attract.)
Fr(req+r₁)
Hint:
0.89105934nm
Hint:

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