The solution of the second order linear differential equation d 2 θ d t 2 + ( g l ) θ = 0 where, θ ( t ) is the angular displacement. The initial conditions are θ ( 0 ) = 0 and θ ′ ( 0 ) = ω 0 .

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Answer 1

Question

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

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Answer 2

Question

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

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Answer 3

Question

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

Expert Solution & Answer

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Check out a sample textbook solution

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Answer 4

Question

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

Expert Solution & Answer

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Answer 5

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

Answer 6

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

Answer 7

Chapter 5.3, Problem 19E

(a)

To determine

The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

Answer 8

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

Answer 9

(b)

To determine

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

Answer 10

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

Answer 11

(c)

To determine

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

Answer 12

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

Answer 13

(d)

To determine

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

Answer 14

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Answer 15

Expert Solution & Answer

Answer 16

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Answer 17

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The solution of the second order linear differential equation d 2 θ d t 2 + ( g l ) θ = 0 where, θ ( t ) is the angular displacement. The initial conditions are θ ( 0 ) = 0 and θ ′ ( 0 ) = ω 0 .

Solution Summary: The author explains the solution of the second order linear differential equation d2theta

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The solution of the second order linear differential equation d2θdt2+(gl)θ=0 where, θ(t) is the angular displacement. The initial conditions are θ(0)=0 and θ′(0)=ω0.

To show: The relation between the velocity of the bullet (vb) and maximum angular displacement (θmax) is vb=(mw+mbmb)(lg)θmax.

To show: The equation of the velocity of the bullet (vb) in terms of mw,mb and h is vb=(mw+mbmb)2gh.

The velocity of the bullet (vb) if the mass of the bullet is 5 grams, mass of the wooden block is 1 kilograms and the height to which the block is raised is 6 centimeters.

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