Describe the behaviour of the chemical potential relative to the top of the valence band when p-doped silicon is brought into contact with n-doped silicon. Select one: O A. Chemical potential decreases in n- type semiconductor and increases in p-type semiconductor O B. Chemical potential increases in n- type semiconductor and decreases in p-type semiconductor C. Chemical potential remains unchanged O D. Chemical potential increases in both semiconductors O E. Chemical potential decreases in both semiconductors
Describe the behaviour of the chemical potential relative to the top of the valence band when p-doped silicon is brought into contact with n-doped silicon. Select one: O A. Chemical potential decreases in n- type semiconductor and increases in p-type semiconductor O B. Chemical potential increases in n- type semiconductor and decreases in p-type semiconductor C. Chemical potential remains unchanged O D. Chemical potential increases in both semiconductors O E. Chemical potential decreases in both semiconductors
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![Describe the behaviour of the chemical
potential relative to the top of the valence
band when p-doped silicon is brought into
contact with n-doped silicon.
Select one:
O A. Chemical potential decreases in n-
type semiconductor and increases in
p-type semiconductor
O B. Chemical potential increases in n-
type semiconductor and decreases in
p-type semiconductor
O C. Chemical potential remains
unchanged
O D. Chemical potential increases in both
semiconductors
O E. Chemical potential decreases in both
semiconductors](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4713d2aa-9dce-4937-bea4-eee373228ef1%2Ff465d82f-130d-4fdb-8f10-fa3188074f9e%2Fmmvpt4h_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Describe the behaviour of the chemical
potential relative to the top of the valence
band when p-doped silicon is brought into
contact with n-doped silicon.
Select one:
O A. Chemical potential decreases in n-
type semiconductor and increases in
p-type semiconductor
O B. Chemical potential increases in n-
type semiconductor and decreases in
p-type semiconductor
O C. Chemical potential remains
unchanged
O D. Chemical potential increases in both
semiconductors
O E. Chemical potential decreases in both
semiconductors
![Describe the behaviour of the chemical
potential when a reverse bias is applied to a
p-n junction.
Select one:
A. Chemical potential decreases for n-
type semiconductor and increases for
p-type semiconductor
O B. Chemical potential increases for n-
type semiconductor and decreases
for p-type semiconductor.
O C. Chemical potential increases for both
parts of the semiconductor junction.
O D. Chemical potential decreases for both
parts of the semiconductor junction.
E. Chemical potential remains
unchanged to prevent current flow.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4713d2aa-9dce-4937-bea4-eee373228ef1%2Ff465d82f-130d-4fdb-8f10-fa3188074f9e%2Frcaijv9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Describe the behaviour of the chemical
potential when a reverse bias is applied to a
p-n junction.
Select one:
A. Chemical potential decreases for n-
type semiconductor and increases for
p-type semiconductor
O B. Chemical potential increases for n-
type semiconductor and decreases
for p-type semiconductor.
O C. Chemical potential increases for both
parts of the semiconductor junction.
O D. Chemical potential decreases for both
parts of the semiconductor junction.
E. Chemical potential remains
unchanged to prevent current flow.
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