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Science Chemistry EBK CHEMISTRY

The momentum of a photon of radiation having wavelength 810 nm is to be determined. Concept introduction: The de Broglie equation is related to the particle and wave properties. It is expressed as follows: λ = h m u Here, h is Planck’s constant ( 6.63 × 10 − 34 J ⋅ s ) , λ is the wavelength of moving particle, m is its mass, and u is its velocity. Momentum is the product of mass and velocity of a moving particle. It is denoted by p . The relationship between J and kg m 2 s − 2 can be expressed as: 1J = 1kg m 2 s − 2 To convert J to kg m 2 s − 2 , conversion factor is 1 kg m 2 s − 2 1 J . The relationship between meters (m) and nanometres (nm) can be expressed as: 1nm = 1 × 10 − 9 m To convert meters (m) to nanometres (nm) , conversion factor is 1 nm 1.00 × 10 − 9 m .

The momentum of a photon of radiation having wavelength 810 nm is to be determined. Concept introduction: The de Broglie equation is related to the particle and wave properties. It is expressed as follows: λ = h m u Here, h is Planck’s constant ( 6.63 × 10 − 34 J ⋅ s ) , λ is the wavelength of moving particle, m is its mass, and u is its velocity. Momentum is the product of mass and velocity of a moving particle. It is denoted by p . The relationship between J and kg m 2 s − 2 can be expressed as: 1J = 1kg m 2 s − 2 To convert J to kg m 2 s − 2 , conversion factor is 1 kg m 2 s − 2 1 J . The relationship between meters (m) and nanometres (nm) can be expressed as: 1nm = 1 × 10 − 9 m To convert meters (m) to nanometres (nm) , conversion factor is 1 nm 1.00 × 10 − 9 m .

Solution Summary: The author explains the de Broglie equation, which is related to particle and wave properties. Momentum is the product of mass and velocity of moving particles.

EBK CHEMISTRY

4th Edition

ISBN: 8220102797864

Author: Burdge

Publisher: YUZU

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Chapter 6.5, Problem 1PPB

Interpretation Introduction

Interpretation:

The momentum of a photon of radiation having wavelength 810 nm is to be determined.

Concept introduction:

The de Broglie equation is related to the particle and wave properties. It is expressed as follows:

λ=hmu

Here, h is Planck’s constant (6.63×10−34 J⋅s), λ is the wavelength of moving particle, m is its mass, and u is its velocity.

Momentum is the product of mass and velocity of a moving particle. It is denoted by p.

The relationship between J and kg m2s−2 can be expressed as:

1J = 1kg m2s−2

To convert J to kg m2s−2, conversion factor is 1 kg m2 s−21 J.

The relationship between meters (m) and nanometres (nm) can be expressed as:

1nm = 1×10−9m

To convert meters (m) to nanometres (nm), conversion factor is 1 nm1.00×10−9 m.

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Chapter 6.5, Problem 1PPA

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Chapter 6 Solutions

EBK CHEMISTRY

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