What Is Mobility And Its SI Unit?

by | Last updated on January 24, 2024

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Mobility of the charge carrier is defined as the drift velocity of the charge carrier per unit electric field. It is denoted by m and is given as. The SI unit of m is

m

2

V

− 1

s

− 1


.

What is called mobility?

Mobility is formally defined as

the value of the drift velocity per unit of electric field strength

; thus, the faster the particle moves at a given electric field strength, the larger the mobility. The mobility of a particular type of particle in a given solid may vary with temperature.

What is mobility give its SI unit?

The SI unit of mobility is

m2sV

. . Complete Step-by-Step solution: Mobility denoted by μ is a proportionality constant that relates drift velocity of the carriers with the electric field in a conductive material. These Carriers may be electrons or holes.

What is the SI unit of mobility class 12?

μ=VdE . The SI unit of electron mobility under the influence of an external electric field is shown as,

m2V−1s−1

. When its SI unit is calculated dimensionally we see that [M−1T2A] , is its dimensional form.

What is mobility give its formula and unit?

Mobility μ is defined as the magnitude of drift velocity per unit electric field.

μ=E∣vd∣

. Its SI unit is m2/Vs.

What is SI unit of inductance?


The henry (symbol: H)

is the SI derived unit of electrical inductance.

What is the SI unit of electron?

Electron volt, unit of energy commonly used in atomic and nuclear physics, equal to the energy gained by an electron (a charged particle carrying unit electronic charge) when the electrical potential at the electron increases by one volt. The electron volt equals 1.602 × 10

− 12

erg, or

1.602 × 10

− 19

joule

.

What is human mobility?

Individual human mobility is

the study that describes how individual humans move within a network or system

. The concept has been studied in a number of fields originating in the study of demographics.

What is mobility in human body?

Mobility is

the ability of a joint to move freely through a given range of motion (ROM) without restriction from surrounding tissues

. Flexibility is defined as the ability of soft tissues (which include muscles, tendons and ligaments) to lengthen correctly, which allows a joint to move through its optimal ROM.

What does mobility mean in sports?

Traditional definition in sports medicine they would be;

FLEXIBILITY: The ability of a muscle to be lengthened. MOBILITY:

The ability of a joint to move through a range of motion

.

What is SI unit of current density?

The SI unit of electric current density is

ampere per square meter

. The symbol “J” is used for electric current density.

What is the SI unit momentum?

The SI unit for momentum is

kg · m/s

. Newton’s second law of motion in terms of momentum states that the net external force equals the change in momentum of a system divided by the time over which it changes.

What is the SI unit of drift velocity?

The SI unit of drift velocity is

m/s

. It is also measured in m

2

/(V.s).

Which has higher mobility electron or hole?

Since holes are subjected to the stronger atomic force pulled by the nucleus than the electrons residing in the higher shells or farther shells, holes have a lower mobility. because electron effective mass is smaller than holes therefore mobility of

electron is higher than holes

.

What is the dimensional formula of mobility?

Or, M = [M

0

L

1

T

– 1

] × [M

1

L

1

T

– 3

I

– 1

]

– 1

= [M

– 1

L

0

T

2

I

1

]. Therefore, mobility is dimensionally represented as

[M

– 1

L

0

T

2

I

1

]

.

How do you find the unit of mobility?

m2s−2V. Hint: Electron mobility is defined as the ratio of velocity to the electric field. μ=vEE SI unit of velocity is ms and SI unit of electric field is Vm then substituting these values in the mobility equation we get our required result. =

m2s−1V−1

, which is the required answer.

Charlene Dyck
Author
Charlene Dyck
Charlene is a software developer and technology expert with a degree in computer science. She has worked for major tech companies and has a keen understanding of how computers and electronics work. Sarah is also an advocate for digital privacy and security.