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Chapter 3: Q38P (page 126)

A proton is located at , and an alpha particle (consisting of two protons and two neutrons)is located at . a) Calculate the force the proton exerts on the alpha particle. b) Calculate the force the alpha particle exerts on the proton?

Short Answer

Expert verified

a) The force the proton exerts on the alpha particle is and b) the force the alpha particle exerts on the proton is

Step by step solution

01

Identification of the given data 

The given data can be listed below as:

  • The location of the proton is

  • The location of the alpha particle is

02

Significance of the Coulomb’s law on the force on the proton and alpha particle

This law states that the unlike charges attracts and the like charges also repel each other. The electrostatic force is directly proportional to the product of the charges and inversely proportional to the square of their distances.

The equation of the electrostatic force gives the force exerted by the proton and also the alpha particle.

03

Determination of the force exerted by the alpha particle and the proton

The location of the protoncan be expressed as:

The location of the electron can be expressed as:

Hence, the position vector can be expressed as:

The distance of the particle is expressed as:

a) From the coulomb’s law, the force exerted by the proton on the alpha particle is expressed as:

Here, F is the force exerted by the proton, is the charges of the proton and the alpha particle which are respectively, k is the coulomb’s constant that is and r is the distance amongst the particles that is

Substituting the values in the above equation, we get-

Thus, the force the proton exerts on the alpha particle is

b) From the coulomb’s law, the force exerted by the alpha particle on the proton is expressed as:

Here, F is the force exerted by the proton, is the charges of the proton and the alpha particle which are respectively , k is the coulomb’s constant that is and r is the distance amongst the particles that is

Substituting the values in the above equation, we get-

Thus, the force the alpha particle exerts on the proton is

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Most popular questions from this chapter

When they are far apart, the momentum of a proton is (3.4×10-21,0,0) kg.m/sas it approaches another proton that is initially at rest. The two protons repel each other electrically, without coming close enough to touch. When they are once again far apart, one of the protons now has momentum(2.4×10-21,1.55×10-21,0) kg.m/s. At that instant, what is the momentum of the other proton?

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(a) What is the magnitude of the gravitational force that the planet exerts on the star?

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(c)If the distance between the star and planet (with their original masses) were three times larger, what would be the magnitude of this force?

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