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The minimum uncertainty in the position of a proton is to be calculated. Concept introduction: The principle that helps to locate any subatomic particle which behaves as a wave is called Heisenberg’s uncertainty principle.(It is impossible to measure the exact position and momentum of a microscopic particle simultaneously with absolute accuracy) The equation of Heisenberg’s uncertainty principle is as follows: Δ x . Δ p ≥ h 4 π Here, Δ x is the minimum uncertainty in position, h is Planck’s constant, and Δ p is the minimum uncertainty of momentum.

The minimum uncertainty in the position of a proton is to be calculated. Concept introduction: The principle that helps to locate any subatomic particle which behaves as a wave is called Heisenberg’s uncertainty principle.(It is impossible to measure the exact position and momentum of a microscopic particle simultaneously with absolute accuracy) The equation of Heisenberg’s uncertainty principle is as follows: Δ x . Δ p ≥ h 4 π Here, Δ x is the minimum uncertainty in position, h is Planck’s constant, and Δ p is the minimum uncertainty of momentum.

Solution Summary: The author explains Heisenberg's uncertainty principle, which helps to locate any subatomic particle which behaves as a wave.

Chemistry

4th Edition

ISBN: 9780078021527

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Chapter 6.5, Problem 2CP

Interpretation Introduction

Interpretation:

The minimum uncertainty in the position of a proton is to be calculated.

Concept introduction:

The principle that helps to locate any subatomic particle which behaves as a wave is called Heisenberg’s uncertainty principle.(It is impossible to measure the exact position and momentum of a microscopic particle simultaneously with absolute accuracy)

The equation of Heisenberg’s uncertainty principle is as follows:

Δx.Δp≥h4π

Here, Δx is the minimum uncertainty in position, h is Planck’s constant, and Δp is the minimum uncertainty of momentum.

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Chapter 6.5, Problem 1CP

Chapter 6.6, Problem 1PPA

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