Calculating Remaining Kinetic Energy After Excited State

In summary, the collision of an electron with kinetic energy 10.6 eV causes a hydrogen atom in its ground state to become excited. The remaining kinetic energy of the electron is .6 eV. This can be determined using the equation E = (-13.6 eV)/(n^2), where n represents the orbital number and 13.6 eV is the ionization energy for hydrogen. The ground state corresponds to n = 1.
  • #1
fball558
147
0
Excited state??

Homework Statement



Initially a hydrogen atom is in its ground stat. An electron with kinetic energy 10.6 eV collides with the atom and excites it. What is the remaining kinetic energy of the electron?

A. 13.6
B. 23.9
C. 3.0
D. .4
E. .6

the answer is .6 eV but not sure how they got this.
im reviewing for an exam so any help would be great.

i was thinking this has something to do with the equation

E = (-13.6 eV)/(n^2)
but don't know how to use this in this case??
 
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  • #2


well the 13.6 represents the ionisation energy for hydrogen, and n represents the orbital number =]
 
  • #3


RoryP said:
well the 13.6 represents the ionisation energy for hydrogen, and n represents the orbital number =]


yeah i got that part, but where does the 10.6 eV come into play?
in the equation the only unknown you could possibly solve for is the n or E. but ground state meand n = 1 right so E would just be -13.6
 
  • #4


Nooo the 13.6 is the total amount of energy you would need to excite an electron from ground state to leaving the atom completely! Hence ionization energy :)
 

1. What is kinetic energy?

Kinetic energy is the energy that an object possesses due to its motion. It is dependent on an object's mass and velocity, and is calculated using the equation KE = 1/2 mv^2, where m is the mass of the object and v is its velocity.

2. What is an excited state?

An excited state is a state in which an atom or molecule has absorbed energy and its electrons have moved to higher energy levels. This can occur when the atom or molecule is exposed to heat, light, or other forms of energy.

3. How do you calculate the remaining kinetic energy after an excited state?

To calculate the remaining kinetic energy after an excited state, you need to know the initial kinetic energy and the energy that was absorbed to cause the excited state. You can then use the conservation of energy principle to calculate the remaining kinetic energy, which is equal to the initial kinetic energy minus the energy absorbed.

4. What is the conservation of energy principle?

The conservation of energy principle states that energy cannot be created or destroyed, but can only be transferred from one form to another. This means that in a closed system, the total amount of energy remains constant.

5. How does calculating remaining kinetic energy after an excited state impact scientific research?

Calculating remaining kinetic energy after an excited state is important in many scientific fields, such as chemistry and physics. It allows us to understand how energy is transferred and transformed in different systems, and helps us make predictions and develop new technologies. It also plays a crucial role in understanding the behavior of atoms and molecules, which is essential for many industrial and medical applications.

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