Filters
Question type
Study Flashcards

A 4.00 m-long steel cable is used to support a church chandelier. After the 226-kg chandelier is hung from the ceiling, the steel cable is lengthened by 3.00 mm. Calculate the diameter of the cable in millimeters. The Young's modulus for steel is .)


A) 1.48
B) 2.17
C) 3.84
D) 4.34E. 6.51

E) All of the above
F) B) and C)

Correct Answer

verifed

verified

Young's modulus Y has units of


A) force.
B) mass density.
C) energy.
D) pressure.
E) mass per unit time.

F) None of the above
G) All of the above

Correct Answer

verifed

verified

00x1010 N/m2. Neglect any effect of the temperature difference.)


A) 3.35 x 10-5 m3
B) 2.25 x 10-4 m3
C) 1.18 x 10-5 m3
D) 0.15 x 10-4 m3
E) None of the above.

F) B) and D)
G) A) and B)

Correct Answer

verifed

verified

A design project requires you to construct a crane to lift a maximum load of QUOTE 5.00×103kg and with a maximum upward acceleration of 2.00 m/s2. What size diameter steel cable should you use if the cable is to have a safety factor of exactly 5?


A) 1.64 cm
B) 1.10 cm
C) 2.68 cm
D) 3.00 cm
E) 1.20 cm

F) B) and D)
G) B) and E)

Correct Answer

verifed

verified

A cable lifting a 4.00-lb bowling ball stretches by 3.00 mm. The same cable lifting a 5.00-lb bowling ball stretches by


A) 3.05 mm.
B) 3.50 mm.
C) 3.75 mm.
D) 4.00 mm.
E) 4.25 mm.

F) All of the above
G) A) and B)

Correct Answer

verifed

verified

A laboratory experiment on stress-strain shows the following quantitative results: A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E) , A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E) , A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E) , A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E) , A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E) Which one of the above values represents a possible value for a tensile strain?


A) A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E)
B) A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E)
C) A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E)
D) A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E)
E) A laboratory experiment on stress-strain shows the following quantitative results: , , , , Which one of the above values represents a possible value for a tensile strain? A) B) C) D) E)

F) C) and E)
G) All of the above

Correct Answer

verifed

verified

The bulk modulus of water is 2.00 x 109 N/m2. By how much must the pressure be increased to reduce the volume of 1.00 kg of water from 1.00 to 0.998 L?


A) 2.00 x106 N/m2
B) 4.00 x 106 N/m2
C) 2.00 x 107 N/m2
D) 4.00 x 107 N/m2
E) 8.00 x 106 N/m2

F) A) and B)
G) A) and C)

Correct Answer

verifed

verified

B

A 1.00 m-high retaining wall is built out of concrete blocks. Each block weighs 22.2 N and has dimensions of 20.3 cm 9.20 cm 5.60 cm. Estimate the minimum volume stress on a block at the very bottom layer of the wall. Assume that the largest surface areas of blocks are facing each other, the height of the wall cannot exceed 1.00 m, and ignore the thin layer of cement between those faces.


A) 2.02104 N/m2
B) 1.90104 N/m2
C) 2.14104 N/m2
D) 3.45105 N/m2
E) 1.87 N/m2

F) A) and E)
G) B) and E)

Correct Answer

verifed

verified

The point that identifies the elastic limit of the material whose graph of stress as a function of strain is shown is A) 1 B) 2 C) 3 D) 4 E) 5 The point that identifies the elastic limit of the material whose graph of stress as a function of strain is shown is


A) 1
B) 2
C) 3
D) 4
E) 5

F) A) and D)
G) B) and D)

Correct Answer

verifed

verified

An 800-kg mass is hung from a 2.00-m steel wire with a cross-sectional area of 0.250 cm2. Young's modulus for steel is 2.0 *1011 N/m2. How much does the wire stretch?


A) 2.56 mm
B) 2.97 mm
C) 3.14 mm
D) 3.86 mm
E) 4.13 mm

F) A) and B)
G) A) and C)

Correct Answer

verifed

verified

The bulk modulus B has units of


A) force.
B) energy.
C) pressure.
D) mass per unit time.
E) mass density.

F) B) and C)
G) A) and D)

Correct Answer

verifed

verified

A 3.00-m long wire with a diameter of 1.50 mm has Young's modulus of 9.00 x1010 N/m2. What mass has to be attached to the wire so that it would extend it by 3.00 mm under its weight?


A) 159 kg
B) 5.16 kg
C) 16.2 kg
D) 64.8 kg
E) 48.6 kg

F) C) and E)
G) A) and E)

Correct Answer

verifed

verified

When pressure changes by value of Δp the change in volume of sphere of side a is When pressure changes by value of Δp the change in volume of sphere of side a is . If the volume is , the change in the radius Δr is A) 0.125r. B) 0.500r. C) 0.0435r. D) 0.0646r. E) 0.250r. . If the volume is When pressure changes by value of Δp the change in volume of sphere of side a is . If the volume is , the change in the radius Δr is A) 0.125r. B) 0.500r. C) 0.0435r. D) 0.0646r. E) 0.250r. , the change in the radius Δr is


A) 0.125r.
B) 0.500r.
C) 0.0435r.
D) 0.0646r.
E) 0.250r.

F) A) and E)
G) A) and D)

Correct Answer

verifed

verified

Which of the following could not have units of N/m2?


A) Young's modulus
B) shear modulus
C) bulk modulus
D) stress
E) strain

F) A) and C)
G) B) and D)

Correct Answer

verifed

verified

Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? A) A) B) B) C) C) D) D) E) E) Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? A) A) B) B) C) C) D) D) E) E) Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? A) A) B) B) C) C) D) D) E) E) Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? A) A) B) B) C) C) D) D) E) E) Which of the following graphs shows the change in pressure as a function of change in volume for an object with initial volume V? A) A) B) B) C) C) D) D) E) E)


A) A)
B) B)
C) C)
D) D)
E) E)

F) C) and D)
G) B) and C)

Correct Answer

verifed

verified

Which of the following statements are correct?


A) You apply tensile stress when you stretch an object along its length.
B) You apply volume stress when you squeeze an object on all sides.
C) You apply shear stress when you apply offset forces to deform an object.
D) All of the above statements are correct.
E) Only A and B are correct.

F) B) and E)
G) D) and E)

Correct Answer

verifed

verified

The Young's modulus for aluminum is The Young's modulus for aluminum is . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar? A) . B) . C) . D) . E) QUOTE 8.00×109 N/m2. . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar?


A) The Young's modulus for aluminum is . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar? A) . B) . C) . D) . E) QUOTE 8.00×109 N/m2. .
B) The Young's modulus for aluminum is . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar? A) . B) . C) . D) . E) QUOTE 8.00×109 N/m2. .
C) The Young's modulus for aluminum is . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar? A) . B) . C) . D) . E) QUOTE 8.00×109 N/m2. .
D) The Young's modulus for aluminum is . If a 35.0-cm long aluminum bar is shortened by 4.00 mm under a certain load, what is the stress on this bar? A) . B) . C) . D) . E) QUOTE 8.00×109 N/m2. .
E) QUOTE 8.00×109 N/m2.

F) B) and E)
G) C) and D)

Correct Answer

verifed

verified

B

Use the following figure to answer the following question: Use the following figure to answer the following question: -A steel wire and an aluminum wire of the same length L and diameter d are joined to form a wire of length 2L. The wire is fastened to the ceiling and a mass m is attached to the other end. If the masses of the wires are negligible relative to mass m, the ratio of the stress in the aluminum wire to the stress in the steel wire is A) less than 1. B) equal to 1. C) greater than 1. D) dependent on mass m. E) impossible to determine. -A steel wire and an aluminum wire of the same length L and diameter d are joined to form a wire of length 2L. The wire is fastened to the ceiling and a mass m is attached to the other end. If the masses of the wires are negligible relative to mass m, the ratio of the stress in the aluminum wire to the stress in the steel wire is


A) less than 1.
B) equal to 1.
C) greater than 1.
D) dependent on mass m.
E) impossible to determine.

F) B) and C)
G) A) and D)

Correct Answer

verifed

verified

B

The point that identifies the proportional limit of the material whose graph of stress as a function of strain is shown is A) 1 B) 2 C) 3 D) 4 E) 5 The point that identifies the proportional limit of the material whose graph of stress as a function of strain is shown is


A) 1
B) 2
C) 3
D) 4
E) 5

F) C) and D)
G) A) and B)

Correct Answer

verifed

verified

During exercise the volume of a human lung can increase by as much as 15%. If the bulk modulus for a lung is 3.00 kN/m2, what is the change in the pressure?


A) +0.450 Pa
B) -0.450 Pa
C) 0
D) -450 Pa
E) +450 Pa

F) B) and E)
G) C) and E)

Correct Answer

verifed

verified

Showing 1 - 20 of 49

Related Exams

Exam 1

Introduction to Physics

60 Questions

Exam 2

Linear Motion

84 Questions

Exam 3

Motion in Two and Three Dimensions

94 Questions

Exam 4

Forces and Motion I: Newtons Laws

93 Questions

Exam 5

Forces and Motion II: Applications

75 Questions

Exam 6

Work and Energy

85 Questions

Exam 7

Momentum, Collisions, and the Center of Mass

75 Questions

Exam 8

Rotational Motion

130 Questions

Exam 10

Gravitation

81 Questions

Exam 11

Fluids

92 Questions

Exam 12

Oscillations

124 Questions

Exam 13

Waves

198 Questions

Exam 14

Thermodynamics I

146 Questions

Exam 15

Thermodynamics II

120 Questions

Exam 16

Electrostatics I: Electric Charge, Forces, and Fields

131 Questions

Exam 17

Electrostatics II: Electric Potential Energy and Electric Potential

142 Questions

Exam 18

Electric Charges in Motion

129 Questions

Exam 19

Magnetism

105 Questions

Exam 20

Electromagnetic Induction

50 Questions

Exam 21

Alternating-Current Circuits

97 Questions

Exam 22

Electromagnetic Waves

53 Questions

Exam 23

Wave Properties of Light

182 Questions

Exam 24

Geometrical Optics

120 Questions

Exam 25

Relativity

86 Questions

Exam 26

Quantum Physics and Atomic Structure

167 Questions

Exam 27

Nuclear Physics

94 Questions

Exam 28

Particle Physics

79 Questions

Show Answer