Consider a particle whose normalized wavefunction is: 2a √axe y(x) = 0x<0 For what value of x does p(x) = y(x) |² peak? O a.x=a O b.x=-a Oc.x=a-1 O d.x=-a-1 x>0 <-ax If the particle represented by the wavefunction y(x) = 2a₁√√axe ' is trapped in box: [0= √x|y(x) |²dx is: O a. 1/a O b. 1/2a O c. 2/2a O d. 3/2a
Consider a particle whose normalized wavefunction is: 2a √axe y(x) = 0x<0 For what value of x does p(x) = y(x) |² peak? O a.x=a O b.x=-a Oc.x=a-1 O d.x=-a-1 x>0 <-ax If the particle represented by the wavefunction y(x) = 2a₁√√axe ' is trapped in box: [0= √x|y(x) |²dx is: O a. 1/a O b. 1/2a O c. 2/2a O d. 3/2a
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![Consider a particle whose normalized wavefunction is:
24-√2.30x40
2a √ axe
y(x) =
For what value of x does p(x) = y(x) |² peak?
O a.x=a
O b.x = -a
O c. x= a -1
O d.x=-a-1
If the particle represented by the wavefunction y(x) = 2a√√axe
O a. 1/a
O b. 1/2a
O c. 2/2a
C.
O d. 3/2a
is trapped in box: [0<x<a], the expectation value <x>= √xy(x) | ²dx is:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F72c7159f-3b03-4f5f-9cb8-6776c4b093c7%2F4d8fc9d5-fc41-4e83-8cc2-4d84d971391c%2F02dxuyl_processed.png&w=3840&q=75)
Transcribed Image Text:Consider a particle whose normalized wavefunction is:
24-√2.30x40
2a √ axe
y(x) =
For what value of x does p(x) = y(x) |² peak?
O a.x=a
O b.x = -a
O c. x= a -1
O d.x=-a-1
If the particle represented by the wavefunction y(x) = 2a√√axe
O a. 1/a
O b. 1/2a
O c. 2/2a
C.
O d. 3/2a
is trapped in box: [0<x<a], the expectation value <x>= √xy(x) | ²dx is:
![The time-independent Schrödinger equation is obtained from the full Schrödinger equation by:
a. separation of x, y and z variables
O b. separation of radial and azimuthal variables
O c. separation of spacial and time variables
O d. separation of spacial and momentum variables
A particle of mass m has the expectation values <x> = 0 and ²) =
=
O a. 0
O b. ħ
O C.
2ma
ħ
2ma
O d. ħ
4ma
ħ22
4m² a²
The uncertainty Ax is:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F72c7159f-3b03-4f5f-9cb8-6776c4b093c7%2F4d8fc9d5-fc41-4e83-8cc2-4d84d971391c%2Feya3n5m_processed.png&w=3840&q=75)
Transcribed Image Text:The time-independent Schrödinger equation is obtained from the full Schrödinger equation by:
a. separation of x, y and z variables
O b. separation of radial and azimuthal variables
O c. separation of spacial and time variables
O d. separation of spacial and momentum variables
A particle of mass m has the expectation values <x> = 0 and ²) =
=
O a. 0
O b. ħ
O C.
2ma
ħ
2ma
O d. ħ
4ma
ħ22
4m² a²
The uncertainty Ax is:
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