Ionization Energy: Homework Problem Solving

AI Thread Summary
The discussion centers on calculating the ionization potential of a hydrogen atom using the energy difference between the n=2 and n=3 states. The energy levels are derived from the equation En = -13.7 × Z^2/n^2, leading to a calculated energy difference. The ionization energy is identified as 13.7 eV, and participants clarify that the term "ionization potential in volts" is misleading since it equates numerically to eV. The solution involves finding the energy difference and relating it to the ionization potential at the n=1 state. The problem is ultimately resolved with this understanding.
Magnetic Boy
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Homework Statement

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Suppose the energy difference between the states n=2 and n=3 is E(eV), in an hydrogen atom. then the ionization potential in volts is: A) 13.2E B) 7.2E C) 3.2 E D) 0.56E

Homework Equations


En = -13.7 × Z^2÷n^2

The Attempt at a Solution


I just know the ionization energy is equal to the total energy in last stationary state. but i can't apply the concept on this problem.
 
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E = (-13.7)/9-(-13.7)/4 is the energy difference

And the ionization energy is 13.7eV

what do you think you have to do now?
 
You got the energy in each state.Divide that by 1.60218e-19 you get the ionization potential of each state in eV.Now find the difference between n=2 and n=3 states.Give that as E.Find ionization potential in n=1.See what multiple of E is that.You got the answer.They gave "ionization potential in volts" to confuse you.
Volt*Q(e)=eV.In this problem both have the same numerical value.
 
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Joyal babu said:
You got the energy in each state.Divide that by 1.60218e-19 you get the ionization potential of each state in eV.Now find the difference between n=2 and n=3 states.Give that as E.Find ionization potential in n=1.See what multiple of E is that.You got the answer.They gave "ionization potential in volts" to confuse you.
Volt*Q(e)=eV.In this problem both have the same numerical value.
Thank you. It was helpful. And solved.
 

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