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Distance from center to a light source for destructive interference in YDSE Calculator

Category Physics
Physics Wave Optics
Wave-Optics Young's double-slit experiment
A number is a mathematical object used to count, measure, and label.Number [n]
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Wavelength is the distance between identical points (adjacent crests) in the adjacent cycles of a waveform signal propagated in space or along a wireWavelength [λ]
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Distance between slits and screen or photodetector is the large distance at which the slits and screen in Young's double-slit experiment.Distance between slits and screen [D]
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Distance between two coherent sources is the length at which both coherent sources are placed.Two sources that vibrate with a fixed phase difference between them are said to be coherent.Distance between two coherent sources [d]
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Distance from center to the light source is the length from the center of the slit to the light sourceDistance from center to a light source for destructive interference in YDSE [y]
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11 Other formulas that you can solve using the same Inputs

Path difference in Young's double-slit experiment
Path Difference=sqrt((Distance from center to the light source+(Distance between two coherent sources/2))^2+(Distance between slits and screen)^2)-sqrt((Distance from center to the light source-(Distance between two coherent sources)^2)+(Distance between slits and screen)^2) GO
Path difference for constructive interference in Young’s double-slit experiment
Path Difference=(Distance between two coherent sources*Distance from center to the light source)/Distance between slits and screen GO
Fringe Width
Fringe Width=(Wavelength*Distance between slits and screen)/Distance between two coherent sources GO
Path difference in Young's double-slit experiment
Path Difference=Distance between two coherent sources*sin(Theta) GO
Phase Difference
Phase Difference=(2*pi*Path Difference)/Wavelength GO
Logarithm of a Number
Logarithm of a Number=log10(Number) GO
Path difference of two progressive wave
Path Difference=(2*pi)/Wavelength GO
Path difference in YDSE when λ is given
Path Difference=Number*Wavelength GO
Phase difference of destructive interference
Phase Difference=(2*Number+1)*pi GO
Phase difference of constructive interference
Phase Difference=2*pi*Number GO
Factorial of a Number
Factorial Of Number=Number! GO

2 Other formulas that calculate the same Output

Distance from center to a light source for constructive interference in YDSE
Distance from center to the light source=(Number*Wavelength*Distance between slits and screen)/Distance between two coherent sources GO
Distance from center to a light source for destructive interference in YDSE
Distance from center to the light source=(2*Number+1)*Wavelength/2 GO

Distance from center to a light source for destructive interference in YDSE Formula

Distance from center to the light source=((2*Number-1)*Wavelength*Distance between slits and screen)/(2*Distance between two coherent sources)
More formulas
Resultant intensity of coherent sources GO
Path difference in Young's double-slit experiment GO
Path difference in Young's double-slit experiment GO
Fringe Width GO
Path difference for constructive interference in Young’s double-slit experiment GO
Path difference in YDSE when λ is given GO
Distance from center to a light source for constructive interference in YDSE GO
Path difference for minima in Young’s double-slit experiment GO
Path difference for minima in Young’s double-slit experiment GO
Distance from center to a light source for destructive interference in YDSE GO
Resultant intensity on-screen of Young's double-slit experiment GO
Resultant intensity on-screen of YDSE when intensities are different GO

How is Distance from center to a light source for destructive interference in YDSE ?

Distance from center to a light source for destructive interference in YDSE is calculated by using the formula y= (2n-1)λD/2d where n = 1,2,.....Here n is positive only and n=1 corresponds to the 1st maxima and n = 2 corresponds to the 2nd maxima, and so on.

How to Calculate Distance from center to a light source for destructive interference in YDSE?

Distance from center to a light source for destructive interference in YDSE calculator uses Distance from center to the light source=((2*Number-1)*Wavelength*Distance between slits and screen)/(2*Distance between two coherent sources) to calculate the Distance from center to the light source, Distance from center to a light source for destructive interference in YDSE (Young’s double-slit experiment ) is the length from the center of the screen up to the light source. Distance from center to the light source and is denoted by y symbol.

How to calculate Distance from center to a light source for destructive interference in YDSE using this online calculator? To use this online calculator for Distance from center to a light source for destructive interference in YDSE, enter Number (n), Wavelength (λ), Distance between two coherent sources (d) and Distance between slits and screen (D) and hit the calculate button. Here is how the Distance from center to a light source for destructive interference in YDSE calculation can be explained with given input values -> 600 = ((2*2-1)*2*0.2)/(2*0.1).

FAQ

What is Distance from center to a light source for destructive interference in YDSE?
Distance from center to a light source for destructive interference in YDSE (Young’s double-slit experiment ) is the length from the center of the screen up to the light source and is represented as y=((2*n-1)*λ*D)/(2*d) or Distance from center to the light source=((2*Number-1)*Wavelength*Distance between slits and screen)/(2*Distance between two coherent sources). A number is a mathematical object used to count, measure, and label, Wavelength is the distance between identical points (adjacent crests) in the adjacent cycles of a waveform signal propagated in space or along a wire, Distance between two coherent sources is the length at which both coherent sources are placed.Two sources that vibrate with a fixed phase difference between them are said to be coherent and Distance between slits and screen or photodetector is the large distance at which the slits and screen in Young's double-slit experiment.
How to calculate Distance from center to a light source for destructive interference in YDSE?
Distance from center to a light source for destructive interference in YDSE (Young’s double-slit experiment ) is the length from the center of the screen up to the light source is calculated using Distance from center to the light source=((2*Number-1)*Wavelength*Distance between slits and screen)/(2*Distance between two coherent sources). To calculate Distance from center to a light source for destructive interference in YDSE, you need Number (n), Wavelength (λ), Distance between two coherent sources (d) and Distance between slits and screen (D). With our tool, you need to enter the respective value for Number, Wavelength, Distance between two coherent sources and Distance between slits and screen and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Distance from center to the light source?
In this formula, Distance from center to the light source uses Number, Wavelength, Distance between two coherent sources and Distance between slits and screen. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Distance from center to the light source=(Number*Wavelength*Distance between slits and screen)/Distance between two coherent sources
  • Distance from center to the light source=(2*Number+1)*Wavelength/2
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