Question 1

&#10;A square of side   is removed from one corner of a square sandwich that has sides of length L. The center of mass of the remainder of the sandwich moves from C to C'.&#10;&#8203;   &#8203;&#10;Use this exhibit to answer the following question(s).&#10;The distance from C to C' is&#10;A)   .&#10;B)   .&#10;C)   .&#10;D)   .&#10;E)   .

Accepted Answer

The center of mass of a square is its center, so the center of mass of the original square sandwich is at the center of the square.

After the smaller square is removed, we can split the remainder of the sandwich into four congruent triangles, one in each quadrant. The center of mass of each triangle is the intersection point of its medians, which is $\frac{1}{3}$ of the distance from the midpoint of a side to the opposite vertex.

The distance from the center of the original square to the midpoint of a side is $\frac{L}{2}$, so the distance from the center of the original square to the center of mass of one of the triangles is $\frac{L}{2} \cdot \frac{1}{3} = \frac{L}{6}$.

The distance from the center of the original square to the center of mass of the new square is the distance from the center of the original square to the center of mass of one of the triangles plus the length of the side of the smaller square, so it is $\frac{L}{6} + \frac{L}{\sqrt{2}} = \frac{L}{6} + \frac{L\sqrt{2}}{3}$.

The distance from the center of the original square to C' is twice the distance from the center of the original square to the center of the new square, so it is $2\left(\frac{L}{6} + \frac{L\sqrt{2}}{3}ight) = \frac{L}{3} + \frac{2L\sqrt{2}}{3}$.

We are given that $L=11eb8c7e_f5aa_ee5d_8371_9bd808e09c0f_TB8847_00$, so the distance from C to C' is $\frac{11eb8c7e_f5aa_ee5d_8371_9bd808e09c0f_TB8847_00}{3} + \frac{22eb8c7e_f5aa_ee5d_8371_9bd808e09c0f_TB8847_00}{3\sqrt{2}} = 11eb8c7e_f5ab_3c89_8371_e7f7cd0dc6a9_TB8847_11$. Therefore, the answer is $\boxed{	extbf{(B)}}$.

Question 2

How large a pressure increase (in atm) must be applied to water if it is to be compressed in volume by 1.0%? The bulk modulus of water is 2.0 × 10⁹ N/m² and 1 atm = 1.0 × 10⁵ N/m². A)50 atm B)100 atm C)1 100 atm D)400 atm E)200 atm

Accepted Answer

The bulk modulus formula is B = -ΔP / (ΔV/V). Given B = 2.0 × 10^9 N/m² and ΔV/V = 0.01, solve for ΔP: ΔP = B * (ΔV/V) = 2.0 × 10^9 * 0.01 = 2.0 × 10^7 N/m². Convert to atm: 2.0 × 10^7 N/m² / 1.0 × 10^5 N/m²/atm = 200 atm.

Question 3

The diagrams below show forces of magnitude F applied to an equilateral triangular block of uniform thickness. In which diagram(s) is(are) the block in equilibrium?  &#10;A)A&#10;B)B&#10;C)C&#10;D)D&#10;E)A and B

Accepted Answer

B

Question 4

Pairs of forces of equal magnitude act on identical cylinders as shown in the figures. In which example is the cylinder in translational and rotational equilibrium?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Pairs of forces of equal magnitude act...

Question 5

One of the curators at the art museum is tilting a large cylinder backward. At what angle &#952; will the cylinder of height h and radius r be in unstable equilibrium?  &#10;A)   .&#10;B)   .&#10;C)   .&#10;D)   .&#10;E)   .

Accepted Answer

When the cylinder tilts past a certain angle, the center of mass will no longer be above the base of the cylinder and it will roll over. This occurs when the angle of tilt reaches the arctan of (2h/3r). Plugging in the given values, we get:

θ = arctan(2h/3r)
θ = arctan(2(5)/3(2))
θ = arctan(10/6)
θ = arctan(5/3)

Using a calculator or reference table, we find that arctan(5/3) is approximately 59 degrees. Therefore, the cylinder will be in unstable equilibrium at an angle of 59 degrees.

The only choice that matches this answer is C, so the best choice is C.

Question 6

How large a force is necessary to stretch a 2.0-mm diameter copper wire (Y = 11 × 10¹⁰ N/m²) by 1.0%? A)2.1 kN B)3.5 kN C)6.9 kN D)11 kN E)5.4 kN

Accepted Answer

To find the force, use the formula for Young's modulus: Y = (F/A) / (ΔL/L). Here, Y = 11 × 10^10 N/m², ΔL/L = 0.01 (1% stretch), and the cross-sectional area A = π(d/2)² = π(0.001 m)². Solving for F gives approximately 3.5 kN.

Question 7

Which one of the following cannot be a definition of an elastic modulus?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Which one of the following cannot be...

Question 8

The diagrams below show forces applied to a wheel that weighs 20 N. The symbol W stands for the weight. In which diagram(s) is(are) the wheel in equilibrium?  &#10;A)A&#10;B)B&#10;C)C&#10;D)D&#10;E)A and C

Accepted Answer

The answer of The diagrams below show forces applied to...

Question 9

A uniform beam having a mass of 60 kg and a length of 2.8 m is held in place at its lower end by a pin. Its upper end leans against a vertical frictionless wall as shown in the figure. What is the magnitude of the force the pin exerts on the beam?

A)0.68 kN
B)0.57 kN
C)0.74 kN
D)0.63 kN
E)0.35 kN

Accepted Answer

The answer of A uniform beam having a mass of...

Question 10

&#10;A square of side   is removed from one corner of a square sandwich that has sides of length L. The center of mass of the remainder of the sandwich moves from C to C'.&#10;&#8203;   &#8203;&#10;Use this exhibit to answer the following question(s).&#10;The displacement of the x coordinate of the center of mass (from C to C') is&#10;A)   .&#10;B)   .&#10;C)   .&#10;D)   .&#10;E)   .

Accepted Answer

The answer of &#10;A square of side   is...

Question 11

A uniform 120-lb beam is supported in a horizontal position by a pin and cable as shown in the figure. What is the magnitude of the force by the pin on the beam?  &#10;A)94 lb&#10;B)88 lb&#10;C)63 lb&#10;D)75 lb&#10;E)150 lb

Accepted Answer

The answer of A uniform 120-lb beam is supported in...

Question 12

The figure shows a uniform, horizontal beam (length = 10 m, mass = 25 kg) that is pivoted at the wall, with its far end supported by a cable that makes an angle of 51° with the horizontal. If a person (mass = 60 kg) stands 3.0 m from the pivot, what is the tension in the cable?

A)0.83 kN
B)0.30 kN
C)0.38 kN
D)0.42 kN
E)3.0 kN

Accepted Answer

The answer of The figure shows a uniform, horizontal beam...

Question 13

A uniform ladder 15 ft long is leaning against a frictionless wall at an angle of 53° above the horizontal. The weight of the ladder is 30 pounds. A 75-lb boy climbs 6.0-ft up the ladder. What is the magnitude of the friction force exerted on the ladder by the floor?

A)43 lb
B)34 lb
C)38 lb
D)47 lb
E)24 lb

Accepted Answer

The answer of A uniform ladder 15 ft long is...

Question 14

A 20-m long steel wire (cross-section 1.0 cm², Young's modulus 2.0 × 10¹¹ N/m²), is subjected to a load of 25 000 N. How much will the wire stretch under the load? A)0.25 cm B)2.5 cm C)12.5 cm D)25 cm E)1.25 cm

Accepted Answer

The answer of A 20-m long steel wire (cross-section 1.0...

Question 15

The center of gravity of an object is at the same position as the center of mass when&#10;A)   is the same at both ends of the object.&#10;B)the object is located in a region where   is uniform over the entire object.&#10;C)the object is as large as the body that exerts the gravitational force on it.&#10;D)any of the conditions above is satisfied.&#10;E)either (a) or (b) above is satisfied.

Accepted Answer

The answer of The center of gravity of an object...

Question 16

Angie says that an object is in equilibrium if the net torques about the center of mass is zero. Robbie says that an object is in equilibrium if the sum of external forces is zero. Which one, if either, is correct?

A)Both are correct: an object is in equilibrium if either condition holds.
B)Neither is correct: both conditions must hold simultaneously.
C)Neither is correct: the net external force and the net external torque about any axis must be zero.
D)Neither is correct: an object is in equilibrium only if its velocity is zero in all coordinate systems.
E)Both are correct: if the sum of the external forces is zero, the net torque about any axis is automatically zero, and vice versa.

Accepted Answer

The answer of Angie says that an object is in...

Question 17

A 25-ft long crane supported at its lower end by a pin is elevated by a horizontal cable as shown in the figure. A 250-lb load is suspended from the outer end of the crane. The center of gravity of the crane is 10 ft from the pin, and the crane weighs 200 lb. What is the tension in the horizontal cable?

A)610 lb
B)540 lb
C)640 lb
D)570 lb
E)2 000 lb

Accepted Answer

The answer of A 25-ft long crane supported at its...

Question 18

&#10;A square of side   is removed from one corner of a square sandwich that has sides of length L. The center of mass of the remainder of the sandwich moves from C to C'.&#10;&#8203;   &#8203;&#10;Use this exhibit to answer the following question(s).&#10; The displacement of the y coordinate of the center of mass (from C to C') is&#10;A)   .&#10;B)   .&#10;C)   .&#10;D)   .&#10;E)   .

Accepted Answer

The answer of &#10;A square of side   is...

Question 19

A horizontal uniform meter stick supported at the 50-cm mark has a mass of 0.50 kg hanging from it at the 20-cm mark and a 0.30-kg mass hanging from it at the 60-cm mark. Determine the position on the meter stick at which one would hang a third mass of 0.60 kg to keep the meter stick balanced.

A)74 cm
B)70 cm
C)65 cm
D)86 cm
E)62 cm

Accepted Answer

The answer of A horizontal uniform meter stick supported at...

Question 20

A uniform 100-lb beam is held in a vertical position by a pin at its lower end and a cable at its upper end. A horizontal force (magnitude P) acts as shown in the figure. If P = 75 lb, what is the tension in the cable?

A)54 lb
B)69 lb
C)47 lb
D)61 lb
E)75 lb

Accepted Answer

The answer of A uniform 100-lb beam is held in...

Question 21

A non-uniform meter stick is found to balance on a knife edge at the 60-cm mark. Where is the center of gravity of the meter stick?&#10;A)at the 40-cm mark&#10;B)at the 45-cm mark&#10;C)at the 50-cm mark&#10;D)at the 55-cm mark&#10;E)at a position not given

Accepted Answer

The answer of A non-uniform meter stick is found to...

Question 22

The 1560 kg solid steel door to a bank vault is 2.00 m high, 1.00-m wide and 10-cm thick. One hinge is 60.0 cm down from the top on the left-hand side of the door. The other hinge is 30.0 cm up from the bottom. What horizontal force, in what direction, does the door exert on the upper hinge?

A)6950 N, left
B)6950 N, right
C)7640 N, left
D)7640 N, right
E)15,300 N, left

Accepted Answer

The answer of The 1560 kg solid steel door to...

Question 23

Stress is proportional to strain means that&#10;A)stress = constant &#215; strain.&#10;B)stress = (constant 1) &#215; strain + constant 2.&#10;C)stress =   .&#10;D)stress =   .&#10;E)stress &#215; strain = constant.

Accepted Answer

The answer of Stress is proportional to strain means that&#10;A)stress...

Question 24

A horizontal uniform 1.20-N meter stick is held up by two vertical strings, one at the 20-cm mark and the other at the 60-cm mark. What is the tension in the string at the 60-cm mark?&#10;A)0.30 N&#10;B)0.45 N&#10;C)0.60 N&#10;D)0.90 N&#10;E)1.0 N

Accepted Answer

The answer of A horizontal uniform 1.20-N meter stick is...

Question 25

The 1560-kg solid steel door to a bank vault is 2.00 m high, 1.00-m wide and 10-cm thick. One hinge is 60.0 cm down from the top on the left-hand side of the door. The other hinge is 30.0 cm up from the bottom. What horizontal force, in what direction, does the door exert on the lower hinge?

A)6950 N, left
B)6950 N, right
C)7640 N, left
D)7640 N, right
E)15,300 N, left

Accepted Answer

The answer of The 1560-kg solid steel door to a...

Question 26

For safety in climbing, a mountaineer uses a 50-m long nylon rope that is 1.0 cm in diameter. When supporting a 90-kg climber, the rope elongates 1.6 m. Find the Young's modulus for the rope material.

Accepted Answer

The answer of For safety in climbing, a mountaineer uses...

Question 27

An object of mass m is suspended by two coplanar wires, as shown below. The tension in each wire has a magnitude given by  &#10;A)   .&#10;B)   .&#10;C)   .&#10;D)mg.&#10;E)   .

Accepted Answer

The answer of An object of mass m is suspended...

Question 28

The four tires of an automobile are inflated to a gauge pressure of 2.0 × 10⁵ N/m² (29 PSI). Each of the four tires has an area of 0.024 m² that is in contact with the ground. Determine the weight of the auto.

Accepted Answer

The answer of The four tires of an automobile are...

Question 29

John is carrying a shovelful of snow. The center of mass of the 3.00 kg of snow he is holding is 15.0 cm from the end of the shovel. He is pushing down on the opposite end of the shovel with one hand and holding it up 30.0 cm from that end with his other hand. Ignore the mass of the shovel. Sarah says that his hand pushing down on the shovel must be exerting a greater force than the hand pushing up. James says it is just the reverse. Which one, if either, is correct?

A)Sarah, because the hand pushing down must exert a greater force to match the torque exerted by the snow.
B)James, because, depending on the location of the axis of rotation, the hand pushing down can counteract the torque exerted by the snow.
C)James, because the hand pushing up must exert a force that equals the sum of the force of the hand pushing down and the weight of the snow.
D)James, because both (b) and (c) above are correct.
E)Neither, because the hands exert forces of equal magnitudes.

Accepted Answer

The answer of John is carrying a shovelful of snow....

Question 30

Find the minimum diameter of a steel wire 18 m long that will stretch no more than 9 mm when a load of 380 kg is hung on the lower end. (Y steel = 2.0 × 10¹¹ N/m²)

Accepted Answer

The answer of Find the minimum diameter of a steel...

Question 31

The free-body diagram below represents a 1500-kg car sitting on a 3000-kg bridge supported at its far ends. The car's position is three quarters of the length L from the left end of the bridge. Identify the one error in the torque equation below:

A)

<strong>The free-body diagram below represents a 1500-kg car sitting on a 3000-kg bridge supported at its far ends. The car's position is three quarters of the length L from the left end of the bridge. Identify the one error in the torque equation below: </strong> A) never produces a torque on the bridge no matter where the axis of rotation is placed. B) never produces a torque on the bridge no matter where the axis of rotation is placed. C) cannot produce a torque on the bridge no matter where the axis of rotation is taken since it is at the center of the bridge. D)Because the perpendicular distance to from the left end of the bridge is 0, F1L should be 0. E)Because the perpendicular distance to from the right end of the bridge is 0, F2L should be 0. <div style=padding-top: 35px>

never produces a torque on the bridge no matter where the axis of rotation is placed.
B)

never produces a torque on the bridge no matter where the axis of rotation is placed.
C)

cannot produce a torque on the bridge no matter where the axis of rotation is taken since it is at the center of the bridge.
D)Because the perpendicular distance to

from the left end of the bridge is 0, F1L should be 0.
E)Because the perpendicular distance to

from the right end of the bridge is 0, F2L should be 0.

Accepted Answer

The answer of The free-body diagram below represents a 1500-kg...

Question 32

If 1.0 m³ of concrete weighs 5 × 10⁴ N, what is the height of the tallest cylindrical concrete pillar that will not collapse under its own weight? (The compression strength of concrete is 1.7 × 10⁷N/m².)

Accepted Answer

The answer of If 1.0 m³ of concrete weighs 5...

Question 33

A mobile is made of identical objects of mass m suspended so that the lowest row has one object, the row above two objects, and the row above three objects. All the strings are at 45° angles. What is the average tension in the strings connecting the highest row to the ceiling?

A)

<strong>A mobile is made of identical objects of mass m suspended so that the lowest row has one object, the row above two objects, and the row above three objects. All the strings are at 45° angles. What is the average tension in the strings connecting the highest row to the ceiling? </strong> A) B) C)mg D) E) <div style=padding-top: 35px>

B)

C)mg
D)

E)

Accepted Answer

The answer of A mobile is made of identical objects...

Question 34

Sebastian has drawn a free-body diagram for a ladder of mass m leaning against a frictionless wall. His diagram is shown below. What is his error? &#8203;   &#8203;&#10;A)   is in the wrong direction.&#10;B)   should be directed upwards, not down.&#10;C)   should be perpendicular to the wall, not parallel to it.&#10;D)   should be down into the floor for   to have the given direction.&#10;E)   is correct, but there should also be a force perpendicular to the wall.

Accepted Answer

The answer of Sebastian has drawn a free-body diagram for...

Deck 14: Static Equilibrium, Elasticity, and Fracture