✖A Charge is the fundamental property of forms of matter that exhibit electrostatic attraction or repulsion in the presence of other matter.ⓘ Charge [q]

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✖Specific Charge is defined as a charge by mass ratio.ⓘ Specific Charge [q_specific]

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Formula

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Specific Charge

Formula

`"q"_{"specific"} = "q"/"[Mass-e]"`

Example

`"3.3E^29"="0.3C"/"[Mass-e]"`

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Specific Charge Solution

STEP 0: Pre-Calculation Summary

Formula Used

Specific Charge = Charge/[Mass-e]
q_specific = q/[Mass-e]
This formula uses 1 Constants, 2 Variables

Constants Used

[Mass-e] - Mass of electron Value Taken As 9.10938356E-31

Variables Used

Specific Charge - Specific Charge is defined as a charge by mass ratio.
Charge - (Measured in Coulomb) - A Charge is the fundamental property of forms of matter that exhibit electrostatic attraction or repulsion in the presence of other matter.

STEP 1: Convert Input(s) to Base Unit

Charge: 0.3 Coulomb --> 0.3 Coulomb No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

q_specific = q/[Mass-e] --> 0.3/[Mass-e]

Evaluating ... ...

q_specific = 3.29330736842966E+29

STEP 3: Convert Result to Output's Unit

3.29330736842966E+29 --> No Conversion Required

FINAL ANSWER

3.29330736842966E+29 ≈ 3.3E+29 <-- Specific Charge

(Calculation completed in 00.004 seconds)

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National Institute of Information Technology (NIIT), Neemrana

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< 25 Structure of Atom Calculators

Bragg equation for Wavelength of Atoms in Crystal Lattice

Go Wavelength of X-ray = 2*Interplanar Spacing of Crystal*(sin(Bragg's Angle of Crystal))/Order of Diffraction

Bragg Equation for Distance between Planes of Atoms in Crystal Lattice

Go Interplanar Spacing in nm = (Order of Diffraction*Wavelength of X-ray)/(2*sin(Bragg's Angle of Crystal))

Bragg Equation for Order of Diffraction of Atoms in Crystal Lattice

Go Order of Diffraction = (2*Interplanar Spacing in nm*sin(Bragg's Angle of Crystal))/Wavelength of X-ray

Mass of Moving Electron

Go Mass of Moving Electron = Rest Mass of Electron/sqrt(1-((Velocity of Electron/[c])^2))

Electrostatic Force between Nucleus and Electron

Go Force between n and e = ([Coulomb]*Atomic Number*([Charge-e]^2))/(Radius of Orbit^2)

Energy of Stationary States

Go Energy of Stationary States = [Rydberg]*((Atomic Number^2)/(Quantum Number^2))

Radii of Stationary States

Go Radii of Stationary States = [Bohr-r]*((Quantum Number^2)/Atomic Number)

Radius of Orbit given Time Period of Electron

Go Radius of Orbit = (Time Period of Electron*Velocity of Electron)/(2*pi)

Time Period of Revolution of Electron

Go Time Period of Electron = (2*pi*Radius of Orbit)/Velocity of Electron

Orbital Frequency given Velocity of Electron

Go Frequency using Energy = Velocity of Electron/(2*pi*Radius of Orbit)

Total Energy in Electron Volts

Go Kinetic Energy of Photon = (6.8/(6.241506363094*10^(18)))*(Atomic Number)^2/(Quantum Number)^2

Energy in Electron Volts

Go Kinetic Energy of Photon = (6.8/(6.241506363094*10^(18)))*(Atomic Number)^2/(Quantum Number)^2

Kinetic Energy in Electron Volts

Go Energy of an Atom = -(13.6/(6.241506363094*10^(18)))*(Atomic Number)^2/(Quantum Number)^2

Radius of Orbit given Potential Energy of Electron

Go Radius of Orbit = (-(Atomic Number*([Charge-e]^2))/Potential Energy of Electron)

Energy of Electron

Go Kinetic Energy of Photon = 1.085*10^-18*(Atomic Number)^2/(Quantum Number)^2

Wave Number of Moving Particle

Go Wave Number = Energy of Atom/([hP]*[c])

Kinetic Energy of Electron

Go Energy of Atom = -2.178*10^(-18)*(Atomic Number)^2/(Quantum Number)^2

Radius of Orbit given Total Energy of Electron

Go Radius of Orbit = (-(Atomic Number*([Charge-e]^2))/(2*Total Energy))

Radius of Orbit given Kinetic Energy of Electron

Go Radius of Orbit = (Atomic Number*([Charge-e]^2))/(2*Kinetic Energy)

Angular Velocity of Electron

Go Angular Velocity Electron = Velocity of Electron/Radius of Orbit

Mass Number

Go Mass Number = Number of Protons+Number of Neutrons

Electric Charge

Go Electric Charge = Number of Electron*[Charge-e]

Number of Neutrons

Go Number of Neutrons = Mass Number-Atomic Number

Specific Charge

Go Specific Charge = Charge/[Mass-e]

Wave Number of Electromagnetic Wave

Go Wave Number = 1/Wavelength of Light Wave

Specific Charge Formula

Specific Charge = Charge/[Mass-e]
q_specific = q/[Mass-e]

What is specific charge?

The charge to mass ratio is known as the Specific charge. J.J Thomson determined the value of specific charge of electron. Greater the magnitude of the charge on the particle, greater is the deflection when electric and magnetic field is applied.

How to Calculate Specific Charge?

Specific Charge calculator uses Specific Charge = Charge/[Mass-e] to calculate the Specific Charge, The Specific charge formula is defined as a charge by the mass ratio of an electron. Electrons are considered as basic constituent particles of all atoms. Specific Charge is denoted by q_specific symbol.

How to calculate Specific Charge using this online calculator? To use this online calculator for Specific Charge, enter Charge (q) and hit the calculate button. Here is how the Specific Charge calculation can be explained with given input values -> 3.3E+29 = 0.3/[Mass-e].

FAQ

What is Specific Charge?

The Specific charge formula is defined as a charge by the mass ratio of an electron. Electrons are considered as basic constituent particles of all atoms and is represented as q_specific = q/[Mass-e] or Specific Charge = Charge/[Mass-e]. A Charge is the fundamental property of forms of matter that exhibit electrostatic attraction or repulsion in the presence of other matter.

How to calculate Specific Charge?

The Specific charge formula is defined as a charge by the mass ratio of an electron. Electrons are considered as basic constituent particles of all atoms is calculated using Specific Charge = Charge/[Mass-e]. To calculate Specific Charge, you need Charge (q). With our tool, you need to enter the respective value for Charge and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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