Hull Cut-off Voltage Solution

STEP 0: Pre-Calculation Summary
Formula Used
Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2
Vc = (1/2)*([Charge-e]/[Mass-e])*B0c^2*d^2
This formula uses 2 Constants, 3 Variables
Constants Used
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
[Mass-e] - Mass of electron Value Taken As 9.10938356E-31
Variables Used
Hull Cut off Voltage - (Measured in Volt) - Hull cut off voltage is defined as the anode voltage or magnetic field necessary to obtain nonzero anode current as a function of the magnetic field or anode.
Hull Cutoff Magnetic Flux Density - (Measured in Tesla) - Hull Cutoff Magnetic Flux Density is the minimum magnetic flux density required to prevent electrons from reaching the anode in a vacuum tube.
Distance Between Anode and Cathode - (Measured in Meter) - Distance Between Anode and Cathode refers to the placing distance between the anode and cathode terminal of a magnetron.
STEP 1: Convert Input(s) to Base Unit
Hull Cutoff Magnetic Flux Density: 0.009 Weber per Square Meter --> 0.009 Tesla (Check conversion here)
Distance Between Anode and Cathode: 0.06 Meter --> 0.06 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vc = (1/2)*([Charge-e]/[Mass-e])*B0c^2*d^2 --> (1/2)*([Charge-e]/[Mass-e])*0.009^2*0.06^2
Evaluating ... ...
Vc = 25643.5959313146
STEP 3: Convert Result to Output's Unit
25643.5959313146 Volt --> No Conversion Required
FINAL ANSWER
25643.5959313146 25643.6 Volt <-- Hull Cut off Voltage
(Calculation completed in 00.004 seconds)

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17 Magnetron Oscillator Calculators

Distance between Anode and Cathode
Go Distance Between Anode and Cathode = (1/Hull Cutoff Magnetic Flux Density)*sqrt(2*([Mass-e]/[Charge-e])*Anode Voltage)
Hull Cutoff Magnetic Flux Density
Go Hull Cutoff Magnetic Flux Density = (1/Distance Between Anode and Cathode)*sqrt(2*([Mass-e]/[Charge-e])*Anode Voltage)
Hull Cut-off Voltage
Go Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2
Electron Uniform Velocity
Go Electron Uniform Velocity = sqrt((2*Beam Voltage)*([Charge-e]/[Mass-e]))
Cyclotron Angular Frequency
Go Cyclotron Angular Frequency = Magnetic Flux Density in Z Direction*([Charge-e]/[Mass-e])
Circuit Efficiency in Magnetron
Go Circuit Efficiency = Resonator Conductance/(Resonator Conductance+Conductance of Cavity)
Anode Current
Go Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency)
Magnetron Phase Shift
Go Phase Shift in Magnetron = 2*pi*(Number of Oscillation/Number of Resonant Cavities)
Repetition Frequency of Pulse
Go Repetition Frequency = (Spectral Line Frequency-Carrier Frequency)/Number of Samples
Spectral Line Frequency
Go Spectral Line Frequency = Carrier Frequency+Number of Samples*Repetition Frequency
Noise Ratio
Go Signal Noise Ratio = (Input Signal Noise Ratio/Output Signal Noise Ratio)-1
Space Charge Reduction Factor
Go Space Charge Reduction Factor = Reduced Plasma Frequency/Plasma Frequency
Electronic Efficiency
Go Electronic Efficiency = Power Generated in Anode Circuit/DC Power Supply
Modulation Linearity
Go Modulation Linearity = Maximum Frequency Deviation/Peak Frequency
Receiver Sensitivity
Go Receiver Sensitivity = Receiver Noise Floor+Signal Noise Ratio
Characteristic Admittance
Go Characteristic Admittance = 1/Characteristic Impedance
RF Pulse Width
Go RF Pulse Width = 1/(2*Bandwidth)

Hull Cut-off Voltage Formula

Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2
Vc = (1/2)*([Charge-e]/[Mass-e])*B0c^2*d^2

Magnetron is based on which principle?

The magnetron is based on the principle of interaction between the electron beam and the traveling electromagnetic RF waves.

How to Calculate Hull Cut-off Voltage?

Hull Cut-off Voltage calculator uses Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2 to calculate the Hull Cut off Voltage, The Hull Cut-off voltage formula is defined as the anode voltage or magnetic field necessary to obtain nonzero anode current as a function of the magnetic field or anode. Hull Cut off Voltage is denoted by Vc symbol.

How to calculate Hull Cut-off Voltage using this online calculator? To use this online calculator for Hull Cut-off Voltage, enter Hull Cutoff Magnetic Flux Density (B0c) & Distance Between Anode and Cathode (d) and hit the calculate button. Here is how the Hull Cut-off Voltage calculation can be explained with given input values -> 25643.6 = (1/2)*([Charge-e]/[Mass-e])*0.009^2*0.06^2.

FAQ

What is Hull Cut-off Voltage?
The Hull Cut-off voltage formula is defined as the anode voltage or magnetic field necessary to obtain nonzero anode current as a function of the magnetic field or anode and is represented as Vc = (1/2)*([Charge-e]/[Mass-e])*B0c^2*d^2 or Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2. Hull Cutoff Magnetic Flux Density is the minimum magnetic flux density required to prevent electrons from reaching the anode in a vacuum tube & Distance Between Anode and Cathode refers to the placing distance between the anode and cathode terminal of a magnetron.
How to calculate Hull Cut-off Voltage?
The Hull Cut-off voltage formula is defined as the anode voltage or magnetic field necessary to obtain nonzero anode current as a function of the magnetic field or anode is calculated using Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2. To calculate Hull Cut-off Voltage, you need Hull Cutoff Magnetic Flux Density (B0c) & Distance Between Anode and Cathode (d). With our tool, you need to enter the respective value for Hull Cutoff Magnetic Flux Density & Distance Between Anode and Cathode 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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