Physics, asked by risillaPmat, 1 year ago

calculate wavelength associated with a body of mass 1.5kg moving woth velocity of 100 m/s

Answers

Answered by Sree2803
10
according to de Broglie ,
wavelength= h/ mv ( h is the Plank's constant)
= 6.626 × 10^-34 / (100 × 1.5)
wavelength = 4.4173 × 10 ^-36 m
Answered by lakshmilakku
0

Answer:

The wavelength associated with a body of mass and moving with velocity is 4.4173 \times 10 ^-36 \ m.

Explanation:

According to de Broglie ,

wavelength=\frac{h}{mv} ( h is the Plank's constant)

=\frac{ 6.626\times10^-34}{ 100 \times 1.5}

wavelength =4.4173 \times 10 ^-36\  m

The de Broglie wavelength is the wavelength that is connected to an object in relation to its mass and speed. a particle of mass m traveling at a velocity will have wave characteristics with \frac{wavelength}{mv}(de Broglie wavelength), where h is Planck's constant. This is the postulate of wave mechanics. If the wavelength is doubled at a given frequency, the wave's velocity will also double. If the wavelength is raised by four times at a given frequency, the wave's velocity will similarly rise by four times. The distance between two similar locations (adjacent crests) in successive cycles determines a waveform signal's wavelength, which is sent over a wire or into space.

To learn more about wavelength, visit:

https://brainly.in/question/9644550

To learn more about velocity, visit:

https://brainly.in/question/11504533

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