Question 1

A force of 15.0 N is applied to a wire with a diameter of 2.00 mm, causing its length to change by 1.20 mm. What is the stress on the wire? A) 4.77 × 10⁶ N/m². B) 5.38 × 10⁶ N/m². C) 6.73 × 10⁶ N/m². D) 7.27 × 10⁶ N/m². E) 8.75 × 10⁶ N/m².

Accepted Answer

Stress is calculated using the formula stress = force / area. The area of a wire with a diameter of 2.00 mm (which is 0.002 m) is found using the formula for the area of a circle, πr^2. The radius is half the diameter, so r = 0.001 m. The area = π(0.001)^2 = 3.14 × 10^-6 m^2. The force applied is 15.0 N. Therefore, stress = 15.0 N / 3.14 × 10^-6 m^2 = 4.77 × 10^6 N/m^2.

Question 2

A force of 20 N is applied to a wire with an unstretched length of 2.5 m. The wire gets 2.00 mm longer. The strain in the wire is A) 2.0 × 10^-4. B) 4.0 × 10^-4. C) 6.0 × 10^-4. D) 8.0 × 10^-4. E) 10 × 10^-4.

Accepted Answer

8.0 × 10^-4.

Question 3

A cable is 5.00 m long and has a diameter of 1.50 mm. The elastic modulus of the cable is 2.50 × 10¹⁰ N/m². A force is applied to the end of the cable and the cable stretches by 3.00 mm. What is the applied force?

A) 16.5 N
B) 20.5 N
C) 26.5 N
D) 32.6 N
E) 36.6 N

Accepted Answer

The force can be calculated using the formula for Young's modulus: $ F = \frac{E \cdot A \cdot \Delta L}{L} $. The cross-sectional area $ A $ is $ \pi \times (0.0015/2)^2 $, $ \Delta L = 0.003 $ m, and $ L = 5 $ m. Substituting these values gives $ F \approx 26.5 $ N.

Question 4

A rod with a diameter of 3.00 mm, projects 2.0 cm horizontally outward from a wall. A 50.0 N weight is hung from the end of the rod and the rod deflects downward by 2.00 × 10^-6 m. The shear strain of the rod is

A) 1.00 × 10^-4.
B) 1.50 × 10^-4.
C) 2.00 × 10^-4.
D) 2.50 × 10^-4.
E) 3.00 × 10^-4.

Accepted Answer

Shear strain is calculated as the change in length (deflection) over the original length. In this case, the deflection is $2.00 \times 10^{-6}$ m and the original length (height in this context, since we're considering the vertical deflection as the change in length) is the diameter of the rod, which is $3.00 \times 10^{-3}$ m. Thus, shear strain = $\frac{2.00 \times 10^{-6} \, \text{m}}{3.00 \times 10^{-3} \, \text{m}} = \frac{2}{3} \times 10^{-3} = 0.6667 \times 10^{-3}$, which rounds to $6.67 \times 10^{-4}$, but given the options, it seems there might be a misunderstanding in the interpretation of the question or a mistake in calculation. The correct approach to find shear strain in this context would involve understanding the deformation in terms of shear, but given the options and typical understanding, none directly match the calculation. Re-evaluating the calculation for a direct match with the provided options under typical assumptions of shear strain might not directly apply here due to a misunderstanding in the application of the concept to the given problem's specifics. The correct answer based on the typical calculation of shear strain does not match due to a conceptual misunderstanding in applying shear strain to this scenario.

Question 5

A wire is 12.00 m long and has a diameter of 1.50 mm. The elastic modulus of the wire is 7.00 × 10¹⁰ N/m². If a force of 500 N is applied to end of the wire, then the increase in length of the wire is

A) 38.5 mm.
B) 40.2 mm.
C) 44.1 mm.
D) 48.5 mm.
E) 51.5 mm.

Accepted Answer

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Question 6

A nail projects 40.0 mm horizontally outward from a wall. A 25.0 N coat is hung from the end of the nail and the nail deflects downward by 2.50 × 10⁻⁶ m. The shear strain of the nail is A) 4.00 × 10⁻⁵. B) 4.75 × 10⁻⁵. C) 5.01 × 10⁻⁵. D) 5.75 × 10⁻⁵. E) 6.25 × 10⁻⁵.

Accepted Answer

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Question 7

A cable is 10.0 m long and has a diameter of 2.00 mm. A force of 45.0 N is applied to the end of the cable and the cable stretches by 3.00 mm. What is the elastic modulus? A) 3.05 × 10¹⁰ N/m² B) 3.67 × 10¹⁰ N/m² C) 3.98 × 10¹⁰ N/m² D) 4.26 × 10¹⁰ N/m² E) 4.77 × 10¹⁰ N/m²

Accepted Answer

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Question 8

A cable is 50.0 m long and has a diameter of 2.50 cm. A force of 10,000 N is applied to the end of the cable. If the maximum stretch allowed in the cable is 2.00 mm, then what is the minimum elastic modulus allowed?

A) 5.09 × 10¹¹ N/m²
B) 1.27 × 10¹¹ N/m²
C) 3.52 × 10⁹ N/m²
D) 2.04 × 10⁷ N/m²
E) 5.00 × 10⁶ N/m²

Accepted Answer

The minimum elastic modulus (E) can be calculated using the formula for stress and strain, where stress = force / area and strain = Δlength / original length. The area of the cable's cross-section is πr^2 = π(0.0125 m)^2. The stress is 10,000 N / area, and the strain is 0.002 m / 50 m. Solving for E (E = stress / strain) gives a value close to 5.09 × 10^11 N/m^2.

Question 9

A rod with a diameter of 2.00 mm, projects 20.0 mm horizontally outward from a wall. A 10.0 N weight is hung from the end of the rod and the rod deflects downward by 4.00 × 10^-6 m. The shear strain of the rod is

A) 1.00 × 10^-4.
B) 1.50 × 10^-4.
C) 2.00 × 10^-4.
D) 2.50 × 10^-4.
E) 3.00 × 10^-4.

Accepted Answer

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Question 10

A force of 15.0 N is applied to a wire with an unstretched length of 4.00 m and a diameter of 5.00 mm. If the wire changed length by 1.20 mm, then the strain in the wire is A) 1.00 × 10⁻⁴. B) 2.00 × 10⁻⁴. C) 3.00 × 10⁻⁴. D) 4.00 × 10⁻⁴. E) 5.00 × 10⁻⁴.

Accepted Answer

To find the strain in the wire, we use the formula:

strain = change in length / original length

The change in length is given as 1.20 mm, but we need to convert it to meters:

1.20 mm = 1.20 × 10^-3 m

The original length is given as 4.00 m.

So,

strain = (1.20 × 10^-3) / 4.00

strain = 3.00 × 10^-4

Therefore, the strain in the wire is 3.00 × 10^-4.

The answer is option C, 3.00 × 10^-4.

Question 11

A wire has a strain of 0.10%. If the wire has an unstretched length of 5.00 m, then the change in length of the wire is&#10;A) 5.0 mm.&#10;B) 7.0 mm.&#10;C) 9.0 mm.&#10;D) 10 mm.&#10;E) 15 mm.

Accepted Answer

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Question 12

A nail projects 25.0 mm horizontally outward from a wall. A 400 N picture is hung from the end of the nail, and the nail deflects downward by 2.00 × 10^-5 m. If the shear modulus is 3.40 × 10¹⁰ N/m², then what is the radius of the nail?

A) 1.60 mm
B) 1.86 mm
C) 2.16 mm
D) 2.44 mm
E) 2.65 mm

Accepted Answer

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Question 13

A cable has a strain of 2.0 × 10^-3. If the unstretched length of the cable is 24.0 m, then the change in length of the cable is A) 35 mm. B) 48 mm. C) 52 mm. D) 59 mm. E) 67 mm.

Accepted Answer

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Question 14

A force of 10.0 N is applied to a wire with an unstretched length of 4.00 m and a diameter of 5.00 mm. The wire changes length by 1.20 mm as a result of the applied force. What is the stress on the wire?

A) 3.67 × 10⁵ N/m².
B) 4.19 × 10⁵ N/m².
C) 4.67 × 10⁵ N/m².
D) 5.09 × 10⁵ N/m².
E) 6.55 × 10⁵ N/m².

Accepted Answer

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Question 15

A force of 500 N is applied to a rod with a diameter of 4.00 mm. The stress on the rod is A) 5.38 × 10⁷ N/m². B) 4.66 × 10⁷ N/m². C) 4.25 × 10⁷ N/m². D) 3.98 × 10⁷ N/m². E) 2.75 × 10⁷ N/m².

Accepted Answer

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Question 16

A 2.00 m brass rod with a 1.00 mm diameter behaves like a spring under stretching or compression. If the elastic modulus of brass is 9.10 × 10¹⁰ N/m², then the spring constant of the rod is A) 4.67 × 10⁴ N/m. B) 4.22 × 10⁴ N/m. C) 3.57 × 10⁴ N/m. D) 2.47 × 10⁴ N/m. E) 2.13 × 10⁴ N/m.

Accepted Answer

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Question 17

A force of 100 N is applied to a rod with a diameter of 6.00 mm. The stress on the rod is A) 5.47 × 10⁶ N/m². B) 4.15 × 10⁶ N/m². C) 3.54 × 10⁶ N/m². D) 2.64 × 10⁶ N/m². E) 2.03 × 10⁶ N/m².

Accepted Answer

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Question 18

A rod is 2.40 m long and has a diameter of 2.50 mm. A force of 2000 N is applied to the end to stretch the rod by 1.00 mm. What is the elastic modulus for this rod? A) 4.17 × 10⁻⁴ N/m² B) 2.00 × 10⁶ N/m² C) 4.07 × 10⁸ N/m² D) 2.44 × 10¹¹ N/m² E) 9.78 × 10¹¹ N/m²

Accepted Answer

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Question 19

A wire is 1.50 m long and has a diameter of 1.50 mm. The elastic modulus of the wire is 6.20 × 10¹⁰ N/m². If a force of 400 N is applied to end of the wire, then the increase in length of the wire is

A) 5.48 mm.
B) 4.28 mm.
C) 3.95 mm.
D) 3.84 mm.
E) 3.45 mm.

Accepted Answer

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Question 20

A rod is 2.40 m long and has a diameter of 2.50 mm. A force of 2000 N is applied to the end, stretching the rod by 1.40 mm. What is the elastic modulus for this rod? A) 6.98 × 10¹¹ N/m² B) 1.75 × 10¹¹ N/m² C) 4.07 × 10⁸ N/m² D) 1.43 × 10⁶ N/m² E) 5.83 × 10⁻⁴ N/m²

Accepted Answer

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Question 21

A cube of aluminum is at a depth of 1.00 km under seawater whose density is 1,025 kg/m³. Atmospheric pressure is 101.3 kPa. What is the volume stress on the cube? Use g = 9.80 m/s². A) 3.01 × 10⁷ Pa. B) 2.60 × 10⁷ Pa. C) 1.00 × 10⁷ Pa. D) 1.34 × 10⁷ Pa. E) 1.01 × 10⁷ Pa.

Accepted Answer

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Question 22

A ball is subjected to a pressure of 25.0 atmospheres. The original diameter of the ball is 4.00 cm. The squeezed diameter of the ball is 3.99 cm. The volume strain of the ball is A) 5.00 × 10^-3. B) 5.75 × 10^-3. C) 6.53 × 10^-3. D) 7.48 × 10^-3. E) 8.68 × 10^-3.

Accepted Answer

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Question 23

Seawater has a density of 1,025 kg/m³ at the surface. The bulk modulus of seawater is 2.100 × 10⁹ N/m². What is the density of seawater at a depth of 10.00 km? (Use g = 9.8 m/s² and ignore any change in density with depth when calculating the pressure.)

A) 1076 kg/m³
B) 1230 kg/m³
C) 1574 kg/m³
D) 1764 kg/m³
E) 1973 kg/m³

Accepted Answer

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Question 24

A 120 N picture hangs from a nail in the wall. The maximum shear stress the nail can sustain is 1.00 × 10⁶ N/m². The smallest diameter the nail can be is A) 10.5 mm. B) 12.4 mm. C) 13.7 mm. D) 14.4 mm. E) 15.9 mm.

Accepted Answer

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Question 25

A copper ball with a diameter of 5.00 cm is subjected to a pressure increase of 2.50 × 10⁶ Pa. The bulk modulus for copper is 1.40 × 10¹¹ N/m². What is the magnitude of the resulting change in the volume?

A) 1.01 × 10^-3 cm³
B) 1.17 × 10^-3 cm³
C) 1.20 × 10^-3 cm³
D) 1.58 × 10^-3 cm³
E) 1.70 × 10^-3 cm³

Accepted Answer

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Question 26

A nail projects 25.0 mm horizontally outward from a wall. A 400 N picture is hung from the end of the nail, and the nail deflects downward by 2.00 × 10^-5 m. If the shear modulus is 3.40 × 10¹⁰ N/m², then what is the radius of the nail?

A) 1.60 mm
B) 1.86 mm
C) 2.16 mm
D) 2.44 mm
E) 2.65 mm

Accepted Answer

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Question 27

A cube is subjected to a pressure of 10.0 atmospheres. The original length of one side of the cube is 1.20 cm. The squeezed length of one side of the cube is 1.18 cm. The volume strain of the cube is&#10;A) 0.0362.&#10;B) 0.0492.&#10;C) 0.0534.&#10;D) 0.0598.&#10;E) 0.0645.

Accepted Answer

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Question 28

A cube of aluminum is at a depth of 1.00 km under water whose density is 1,000 kg/m³. Atmospheric pressure is 101.3 kPa. What is the volume stress on the cube? Use g = 9.80 m/s². A) 9.60 × 10⁶ Pa. B) 9.70 × 10⁶ Pa. C) 9.80 × 10⁶ Pa. D) 9.90 × 10⁶ Pa. E) 1.00 × 10⁷ Pa.

Accepted Answer

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Question 29

An aluminum ball is subjected to a pressure of 7.00 × 10⁶ Pa. The volume strain is −1.0 × 10⁻⁴. What is the bulk modulus? A) 5.8 × 10¹⁰ N/m² B) 6.1 × 10¹⁰ N/m² C) 6.3 × 10¹⁰ N/m² D) 7.0 × 10¹⁰ N/m² E) 8.1 × 10¹⁰ N/m²

Accepted Answer

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Question 30

A 150 N picture hangs from a nail in the wall. The maximum shear stress the nail can sustain is 2.00 × 10⁶ N/m². The smallest diameter the nail can be is A) 9.77 mm. B) 8.22 mm. C) 7.97 mm. D) 7.52 mm. E) 6.03 mm.

Accepted Answer

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Question 31

A ball of aluminum is at a depth of 100.0 m under water whose density is 1,000 kg/m³. Atmospheric pressure is 101.3 kPa. What is the volume stress on the ball? Use g = 9.80 m/s². A) 9.80 × 10⁵ Pa. B) 1.08 × 10⁶ Pa. C) 1.28 × 10⁵ Pa. D) 2.13 × 10⁶ Pa. E) 2.33 × 10⁶ Pa.

Accepted Answer

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Question 32

A cube is subjected to a pressure of 12 atmospheres. The original length of one side of the cube is 10.0 cm. The squeezed length of one side of the cube is 9.999 cm. The volume strain of the cube is A) 2.00 × 10^-4. B) 2.20 × 10^-4. C) 2.40 × 10^-4. D) 2.60 × 10^-4. E) 3.00 × 10^-4.

Accepted Answer

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Question 33

A ball is subjected to a pressure of 2.0 atmospheres. The original diameter of the ball is 10.0 cm. The squeezed diameter of the ball is 9.999 cm. The volume strain of the ball is A) 3.00 × 10^-4. B) 3.30 × 10^-4. C) 3.50 × 10^-4. D) 3.70 × 10^-4. E) 3.90 × 10^-4.

Accepted Answer

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Question 34

A 100 N picture hangs from a nail in the wall. The diameter of the nail is 3.00 mm. The shear stress on the nail is A) 1.98 × 10⁷ N/m². B) 1.86 × 10⁷ N/m². C) 1.62 × 10⁷ N/m². D) 1.41 × 10⁷ N/m². E) 1.34 × 10⁷ N/m².

Accepted Answer

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Question 35

A 24.0 N picture hangs from a nail in the wall. The diameter of the nail is 2.00 mm. The shear stress on the nail is A) 7.64 × 10⁶ N/m². B) 6.24 × 10⁶ N/m². C) 5.65 × 10⁶ N/m². D) 4.37 × 10⁶ N/m². E) 4.02 × 10⁶ N/m².

Accepted Answer

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Question 36

A steel ball with a diameter of 10 cm is subjected to a pressure that causes the volume of the ball to shrink by 0.01%. The bulk modulus for steel is 1.6 × 10¹¹ N/m². What is the pressure? A) 2.4 × 10⁷ N/m² B) 2.1 × 10⁷ N/m² C) 1.9 × 10⁷ N/m² D) 1.6 × 10⁷ N/m² E) 1.2 × 10⁷ N/m²

Accepted Answer

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Question 37

A rod with a diameter of 2.00 mm projects 20.0 mm horizontally outward from a wall. A 2.00 N coat is hung from the end of the rod and the rod deflects downward by 4.00 × 10^-6 m. The shear stress on the rod is

A) 2.78 × 10⁵ N/m².
B) 3.37 × 10⁵ N/m².
C) 4.73 × 10⁵ N/m².
D) 5.34 × 10⁵ N/m².
E) 6.37 × 10⁵ N/m².

Accepted Answer

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Question 38

A rod with a diameter of 2.00 mm projects 20.0 mm horizontally outward from a wall. A 10.0 N weight is hung from the end of the rod and the rod deflects downward by 4.00 × 10^-6 m. The shear modulus of the rod is

A) 2.28 × 10¹⁰ N/m².
B) 1.99 × 10¹⁰ N/m².
C) 1.67 × 10¹⁰ N/m².
D) 1.59 × 10¹⁰ N/m².
E) 1.42 × 10¹⁰ N/m².

Accepted Answer

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Question 39

A nail with a diameter of 1.00 mm projects 25.0 mm horizontally outward from a wall. A 40.0 N picture is hung from the end of the nail. If the shear modulus is 3.40 × 10¹⁰ N/m², then how much does the nail deflect downward?

A) 3.74 × 10^-5 m
B) 4.45 × 10^-5 m
C) 4.78 × 10^-5 m
D) 5.65 × 10^-5 m
E) 7.85 × 10^-5 m

Accepted Answer

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Question 40

A copper ball with a diameter of 5.00 cm is subjected to a pressure increase of 2.50 × 10⁶ Pa. The bulk modulus for copper is 1.40 × 10¹¹ N/m². What is the magnitude of the resulting change in the volume?

A) 1.01 × 10^-3 cm³
B) 1.17 × 10^-3 cm³
C) 1.20 × 10^-3 cm³
D) 1.58 × 10^-3 cm³
E) 1.70 × 10^-3 cm³

Accepted Answer

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Question 41

A 4.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. The velocity is given by the expression v(t) = (12.8 cm/s) cos(ω t + π/4). What is the maximum acceleration of the mass? A) 13.6 cm/s² B) 16.2 cm/s² C) 19.2 cm/s² D) 20.2 cm/s² E) 24.5 cm/s²

Accepted Answer

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Question 42

A 1.0 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 0.0 cm/s and the initial displacement is 2.0 cm, then what is the maximum kinetic energy of the mass?

A) 0.014 J
B) 0.0090 J
C) 0.0075 J
D) 0.0018 J
E) 0.0012 J

Accepted Answer

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Question 43

A mass is suspended vertically from a spring so it is at rest at the equilibrium position. The mass is pulled a short distance straight down and released so that it oscillates about the equilibrium position. The acceleration is greatest in magnitude and directed downward when the mass is

A) at its highest point.
B) at the equilibrium position.
C) at its lowest point.
D) somewhere between the equilibrium point and maximum extension.

Accepted Answer

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Question 44

A 1.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 4.00 cm/s and the initial displacement is 0.00 cm, then what is the amplitude of the oscillations?

A) 2.67 cm
B) 2.33 cm
C) 2.05 cm
D) 1.67 cm
E) 1.33 cm

Accepted Answer

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Question 45

A 10.0 kg mass is attached to the end of a 2.00 m long brass rod, which has a diameter of 1.00 mm and negligible mass. The mass at the end is pulled, stretching the rod slightly, and then released. If the elastic modulus of brass is 9.10 × 10¹⁰ N/m², then the frequency of the resulting oscillations is

A) 6.20 Hz.
B) 7.51 Hz.
C) 7.95 Hz.
D) 8.21 Hz.
E) 9.51 Hz.

Accepted Answer

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Question 46

A 9.00 kg mass is connected to a spring with a spring constant of 4.00 N/m. The velocity is given by the expression v(t) = (12.8 cm/s) cos(&#969; t + &#960;/4). What is the amplitude of the oscillations?&#10;A) 13.6 cm&#10;B) 19.2 cm&#10;C) 35.3 cm&#10;D) 40.4 cm&#10;E) 45.5 cm

Accepted Answer

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Question 47

A mass is suspended vertically from a spring so it is at rest at the equilibrium position. The mass is pulled a short distance straight down and released so that it oscillates about the equilibrium position. The acceleration is greatest in magnitude and directed downward when the mass is

A) at its highest point.
B) at the equilibrium position.
C) at its lowest point.
D) somewhere between the equilibrium point and maximum extension.

Accepted Answer

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Question 48

A 3.0 kg mass is connected to a spring with a spring constant of 6.0 N/m. The velocity is given by the expression v(t) = (10 cm/s) sin(&#969; t). What is the maximum velocity of the mass?&#10;A) 10 cm/s&#10;B) 14 cm/s&#10;C) 17 cm/s&#10;D) 20 cm/s&#10;E) 25 cm/s

Accepted Answer

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Question 49

A 4.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. The velocity is given by the expression v(t) = (12.8 cm/s) cos(&#969; t + &#960;/4). What is the maximum velocity of the mass?&#10;A) 41.0 cm/s&#10;B) 32.8 cm/s&#10;C) 19.2 cm/s&#10;D) 12.8 cm/s&#10;E) 9.05 cm/s

Accepted Answer

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Question 50

A 2.0 kg mass is connected to a spring with a spring constant of 9.0 N/m. The displacement is given by the expression x(t) = (12 cm) sin(&#969; t). What is the amplitude of the motion?&#10;A) 8.0 cm&#10;B) 12 cm&#10;C) 20 cm&#10;D) 24 cm&#10;E) 30 cm

Accepted Answer

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Question 51

A mass is suspended vertically from a spring so it is at rest at the equilibrium position. The mass is pulled a short distance straight down and released so that it oscillates about the equilibrium position. The acceleration is greatest in magnitude and directed upward when the mass is

A) at its highest point.
B) at the equilibrium position.
C) at its lowest point.
D) somewhere between the equilibrium point and maximum extension.

Accepted Answer

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Question 52

A 10.0 kg mass is attached to the end of a 2.00 m long brass rod, which has a diameter of 1.00 mm and negligible mass. The mass at the end is pulled, stretching the rod slightly, and then released. If the elastic modulus of brass is 9.10 × 10¹⁰ N/m², then the frequency of the resulting oscillations is

A) 6.20 Hz.
B) 7.51 Hz.
C) 7.95 Hz.
D) 8.21 Hz.
E) 9.51 Hz.

Accepted Answer

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Question 53

A 4.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 12.0 cm/s and the initial displacement is 4.00 cm, then what is the maximum velocity of the mass?&#10;A) 20.3 cm/s&#10;B) 19.8 cm/s&#10;C) 15.5 cm/s&#10;D) 13.4 cm/s&#10;E) 11.5 cm/s

Accepted Answer

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Question 54

A 1.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 4.00 cm/s and the initial displacement is 0.00 cm, then what is the amplitude of the oscillations?

A) 2.67 cm
B) 2.33 cm
C) 2.05 cm
D) 1.67 cm
E) 1.33 cm

Accepted Answer

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Question 55

A 1.0 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 0.0 cm/s and the initial displacement is 2.0 cm, then what is the maximum kinetic energy of the mass?

A) 0.014 J
B) 0.0090 J
C) 0.0075 J
D) 0.0018 J
E) 0.0012 J

Accepted Answer

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Question 56

An equation that describes the displacement of an object moving in simple harmonic motion is x(t) = (1.20 m) sin[(2.40 rad/s) t]. What is the maximum velocity of the object?&#10;A) 5.32 m/s&#10;B) 4.82 m/s&#10;C) 3.68 m/s&#10;D) 2.88 m/s&#10;E) 2.03 m/s

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Question 57

A 2.00 kg mass is connected to a spring with a spring constant of 6.00 N/m. The displacement is given by the expression x(t) = (12.0 cm) sin(&#969; t). What is the maximum velocity of the mass?&#10;A) 34.8 cm/s&#10;B) 30.7 cm/s&#10;C) 25.6 cm/s&#10;D) 20.8 cm/s&#10;E) 17.5 cm/s

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Question 58

A 2.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. The velocity is given by the expression v(t) = (10.0 cm/s) sin(ω t). What is the maximum acceleration of the mass? A) 17.5 cm/s² B) 21.2 cm/s² C) 25.2 cm/s² D) 30.5 cm/s² E) 36.7 cm/s²

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Question 59

A mass is suspended vertically from a spring so it is at rest at the equilibrium position. The mass is pulled a short distance straight down and released so that it oscillates about the equilibrium position. The acceleration is greatest in magnitude and directed upward when the mass is

A) at its highest point.
B) at the equilibrium position.
C) at its lowest point.
D) somewhere between the equilibrium point and maximum extension.

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Question 60

A 1.0 kg mass is connected to a spring with a spring constant of 9.00 N/m. If the initial velocity is 0.0 cm/s and the initial displacement is 2.0 cm, then what is the maximum kinetic energy of the mass?

A) 0.014 J
B) 0.0090 J
C) 0.0075 J
D) 0.0018 J
E) 0.0012 J

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Question 61

A 2.00 kg mass is connected to a spring with a spring constant of 9.00 N/m. The displacement is given by the expression x(t) = (12.0 cm) sin(&#969; t). What is the period of the simple harmonic motion?&#10;A) 4.75 sec&#10;B) 4.27 sec&#10;C) 3.95 sec&#10;D) 3.36 sec&#10;E) 2.96 sec

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Question 62

A 2.00 kg mass is connected to a spring with a spring constant of 900 N/m. The displacement is given by the expression x(t) = (12.0 cm) sin(&#969; t). What is the frequency of the simple harmonic motion?&#10;A) 5.02 Hz&#10;B) 4.21 Hz&#10;C) 3.38 Hz&#10;D) 2.56 Hz&#10;E) 2.05 Hz

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Question 63

Consider a physical pendulum constructed by attaching a thin, massless rod to the center of a uniform disc of mass 500 g and radius 4.00 cm. The disc has a moment of inertia of ½ MR² about an axis perpendicular to the plane of the disc, through its center. With the rod hung from one end (the pivot), the plane of the disc (attached to the other end) is vertical. If the rod has a length of 50.0 cm, then the period of (small amplitude) oscillations of the pendulum will be A) 1.24 sec. B) 1.42 sec. C) 1.74 sec. D) 1.90 sec. E) 2.25 sec.

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Question 64

A block on a frictionless, horizontal surface is attached to a spring that requires 125 N of force for the block to be stretched 15 cm away from equilibrium. From this position the block is released, and it begins to oscillate with a period of 0.25 s. What is the mass of the block?&#10;A) 0.66 kg&#10;B) 4.1 kg&#10;C) 1.3 kg&#10;D) 5.3 kg

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Deck 10: Elasticity and Oscillations