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Deck 15: Fluids and Elasticity

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Question
Tensile train is

A) the ratio of the change in length to the original length.
B) the stress per unit area.
C) the same as force.
D) the applied force per cross-sectional area.
E) the ratio of stress to elastic modulus.
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Question
A rock is under water in a shallow lake. As the rock sinks deeper and deeper into water, the buoyant force on it

A) increases.
B) decreases.
C) remains constant.
Question
Salt water is more dense than fresh water. A ship floats in both fresh water and salt water. Compared to the fresh water, the volume of salt water displaced by the ship is

A) greater than the volume of fresh water.
B) less than the volume of fresh water.
C) the same as the volume of fresh water.
Question
Water flows through a pipe having a varying width. More water flows per second through the wide section than through the narrow section because there is more room for it to flow.
Question
A certain coin has a diameter of 21.21 mm, a thickness of 1.95 mm, and weighs 0.04905 N. What is its density?

A) 29.1 × 103 kg/m3
B) 7.26 × 103 kg/m3
C) 9.25 × 103 kg/m3
D) 2.31 × 103 kg/m3
E) 71.2 × 103 kg/m3
Question
When you blow some air above the upper face of a paper strip, the paper rises. This occurs because

A) the air above the upper face of the paper moves faster, which makes the pressure higher than at the lower face.
B) the air above the upper face of the paper moves faster, which makes the pressure lower than at the lower face.
C) the air above the upper face of the paper moves faster but the pressure remains constant.
D) the air above the upper face of the paper moves slower, which makes the pressure higher than at the lower face.
E) the air above the upper face of the paper moves slower, which makes the pressure lower than at the lower face.
Question
A 50-cm3 block of wood is floating partially submerged in water, and a 50-cm3 block of iron is totally submerged in water. Which block has the greater buoyant force on it?

A) the wood
B) the iron
C) Both have the same buoyant force.
D) The answer cannot be determined without knowing the densities of the blocks.
Question
As the speed of a moving fluid increases, the pressure in the fluid

A) increases.
B) remains constant.
C) decreases.
D) may increase or decrease, depending on the density of the fluid.
Question
A cup of water containing an ice cube at 0°C is filled to the brim. The tip of the ice cube sticks out of the surface. As the ice melts, you observe that

A) the cup overflows.
B) the cup might overflow but it depends on the actual mass of the ice cube.
C) the water level remains the same.
D) the water level actually goes down.
E) There is not enough information to answer this question.
Question
What is the radius of a sphere that has a density of 5000 kg/m3 and a mass of 6.00 kg?

A) 4.98 cm
B) 1.27 cm
C) 6.59 cm
D) 1.56 cm
E) 7.22 cm
Question
A piece of wood is floating in a bathtub. A second piece of wood sits on top of the first piece, and does not touch the water. If the top piece is taken off and placed in the water, what happens to the water level in the tub?

A) It goes up.
B) It goes down.
C) It does not change.
D) This cannot be determined without knowing the volume of the top piece of wood.
Question
At a certain depth in the ocean, the absolute pressure is p. If you go to twice that depth (treating the water as incompressible)

A) the absolute pressure will be 2p.
B) the absolute pressure will be less than 2p.
C) the absolute pressure will be greater than 2p.
D) the gauge pressure will not change.
E) the gauge pressure will increase but will not double.
Question
Fluid fills the container shown in the figure. At which of the indicated points is the pressure greatest? <strong>Fluid fills the container shown in the figure. At which of the indicated points is the pressure greatest? </strong> A) A B) B C) C D) D E) The pressure is the same at each of the labeled points. <div style=padding-top: 35px>

A) A
B) B
C) C
D) D
E) The pressure is the same at each of the labeled points.
Question
If you double the pressure on the surface of a can of water, the buoyant force on a stone placed in that water will

A) increase, but not double.
B) double.
C) decrease, but not by one-half.
D) not change.
Question
Tensile stress is

A) the strain per unit length.
B) the same as force.
C) the ratio of the change in length to the original length.
D) the applied force per cross-sectional area.
E) the ratio of elastic modulus to strain.
Question
You are driving a late model convertible car at the 65 mph speed limit with its soft flexible roof closed up and the windows closed. You observe that the roof

A) bows inward.
B) is no different from when the car was at rest.
C) bows outward.
D) bows inward only when you are driving uphill.
E) bows inward only when you are driving downhill.
Question
Two compressible solids are formed into spheres of the same size. The bulk modulus of sphere two is twice as large as the bulk modulus of sphere one. You now increase the pressure on both spheres by the same amount. As a result of the increased pressure, how is the change in volume of sphere two (△V2) related to the change in volume of sphere one (ΔV1)?

A) ΔV2 = 2ΔV1
B) ΔV2 = 4ΔV1
C) vV2 = ΔV1
D) ΔV2 = 1/2ΔV1
E) ΔV2 = 1/4ΔV1
Question
A sphere is constructed of two concentric parts. The inner part is a solid sphere of radius 10.0 cm made of a material with density 4000 kg/m3. The outer part is a spherical shell with inner radius 10.0 cm and outer radius 20.0 cm. The material in the outer shell has a density 9000 kg/m3.
(a) What is the mass of the sphere?
(b) What is the average density of this sphere?
Question
One of the dangers of tornados and hurricanes is the rapid drop in air pressure that is associated with such storms. Assume that the air pressure inside of a sealed house is 1.02 atm when a hurricane hits. The hurricane rapidly decreases the external air pressure to 0.910 atm. A square window in an outside wall of the house measures 2.02 m on each side. What net force (directed outwards) is exerted on this window? (1 atm = 1.01 × 105 Pa.)

A) 4.53 × 104 N
B) 5.14 × 104 N
C) 4.78 × 105 N
D) 5.37 × 105 N
Question
The graph in the figure shows the force on an object as a function of the elongation caused by that force. Which statement about this object is true? <strong>The graph in the figure shows the force on an object as a function of the elongation caused by that force. Which statement about this object is true? </strong> A) The object obeys Hooke's law at all points from A to C. B) The object obeys Hooke's law at all points from B to C. C) The object obeys Hooke's law at all points from A to B. D) The elastic limit occurs at point C. E) The region of elastic behavior occurs from B to C. <div style=padding-top: 35px>

A) The object obeys Hooke's law at all points from A to C.
B) The object obeys Hooke's law at all points from B to C.
C) The object obeys Hooke's law at all points from A to B.
D) The elastic limit occurs at point C.
E) The region of elastic behavior occurs from B to C.
Question
The small piston of a hydraulic lift has a diameter of 8.0 cm, and its large piston has a diameter of 40 cm. The lift raises a load of 15,000 N.
(a) Determine the force that must be applied to the small piston.
(b) Determine the pressure applied to the fluid in the lift.
Question
A circular cylinder of height 1.20 m having faces of diameter 0.620 m is immersed in water of density 1.00 × 103 kg/m3 with its axis vertical so that its faces are parallel to the surface of the water. The upper face is 2.50 m below the surface of the water. The net force on this cylinder is observed to be 1120 N downward. Atmospheric pressure is 1.01 × 105 Pa. What net force does the water exert on the lower face of the cylinder?

A) 7.40 × 103 N
B) 1.09 × 104 N
C) 3.79 × 104 N
D) 4.14 × 104 N
E) 1.37 × 105 N
Question
On planet X, the absolute pressure at a depth of 2.00 m below the surface of a liquid nitrogen lake is 5.00 × 105 N/m2. At a depth 5.00 m below the surface, the absolute pressure is 8.00 × 105 N/m2. The density of liquid nitrogen is 808 kg/m3.
(a) What is the atmospheric pressure on planet X?
(b) What is the acceleration due to gravity on planet X?
Question
A wooden raft has a mass of 50 kg. When empty it floats in water (density 1000 kg/m3) with 69% of its volume submerged. What mass of sand can be put on the raft without it sinking?
Question
A barge is 15.0 m wide and 75.0 m long and has vertical sides. The bottom of the hull is 1.20 m below the water surface. What is the weight of the barge and its cargo, if it is floating in fresh water of density 1000 kg/m3?

A) 22.6 MN
B) 13.2 MN
C) 1.35 MN
D) 1.13 MN
E) 11.3 MN
Question
A circular cylinder of height 1.20 m having faces of diameter 0.620 m is immersed in water of density 1.00 × 103 kg/m3 with its axis vertical so that its faces are parallel to the surface of the water. The upper face is 2.50 m below the surface of the water. The net force on this cylinder is observed to be 1120 N downward. Atmospheric pressure is 1.01 × 105 Pa. What is the weight of the cylinder?

A) 2430 N
B) 3550 N
C) 4670 N
D) 10,900 N
E) 12,100 N
Question
A cubical box, 5.00 cm on each side, is immersed in a fluid. The gauge pressure at the top surface of the box is 594 Pa and the gauge pressure on the bottom surface is 1133 Pa. What is the density of the fluid?

A) 1000 kg/m3
B) 1100 kg/m3
C) 1220 kg/m3
D) 2340 kg/m3
E) 12,000 kg/m3
Question
A 6.1-kg solid sphere, made of metal whose density is 2600 kg/m3, is suspended by a cord. When the sphere is immersed in a liquid of unknown density, the tension in the cord is 26 N. Find the density of the liquid.

A) 1500 kg/m3
B) 1400 kg/m3
C) 1300 kg/m3
D) 1200 kg/m3
E) 1100 kg/m3
Question
A hollow steel ball of diameter 3.0 m barely floats in water. What is the thickness of the wall of the ball? The density of iron is 7.87 g/cm3 and that of water is 1000 kg/m3.

A) 6.6 cm
B) 37 cm
C) 131 cm
D) 79 cm
Question
A rock is suspended from a scale reads 20.0 N. A beaker of water (having a density of 1000 kg/m3) is raised up so the rock is totally submerged in the water. The scale now reads 12.5 N. What is the density of the rock?

A) 1.60 × 103 kg/m3
B) 2.50 × 103 kg/m3
C) 2.33 × 103 kg/m3
D) 3.00 × 103 kg/m3
E) 2.67 × 103 kg/m3
Question
A 7.8-kg solid sphere, made of metal whose density is 2500 kg/m3, is suspended by a cord. When the sphere is immersed in water (of density 1000 kg/m3), what is the tension in the cord?

A) 46 N
B) 61 N
C) 76 N
D) 92 N
E) 110 N
Question
The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m3. The manometer contains incompressible oil with a density of 820 kg/m3. What is the difference in elevation h if the manometer reading m is 25.0 cm? <strong>The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m<sup>3</sup>. The manometer contains incompressible oil with a density of 820 kg/m<sup>3</sup>. What is the difference in elevation h if the manometer reading m is 25.0 cm? </strong> A) 0.045 m B) 0.025 m C) 0.065 m D) 0.115 m E) 0.205 m <div style=padding-top: 35px>

A) 0.045 m
B) 0.025 m
C) 0.065 m
D) 0.115 m
E) 0.205 m
Question
A board that is 20.0 cm wide, 5.00 cm thick, and 3.00 m long has a density 350 kg/m3. The board is floating partially submerged in water of density 1000 kg/m3. What fraction of the volume of the board is above the surface of the water?

A) 0.350
B) 0.650
C) zero
D) 0.200
E) The answer depends on which edge of the board is vertical.
Question
The weight of a car of mass 1.20 × 103 kg is supported equally by the four tires, which are inflated to the same gauge pressure. What gauge pressure in the tires is required so the area of contact of each tire with the road is 1.00 × 102 cm2? (1 atm = 1.01 × 105 Pa.)

A) 11.6 × 105 Pa
B) 11.6 × 104 Pa
C) 2.94 × 105 Pa
D) 2.94 × 104 Pa
E) 2.94 × 103 Pa
Question
A person who weighs 550 N empties her lungs as much as possible and is then completely immersed in water (of density 1000 kg/m3) while suspended from a harness. Her apparent weight is now 21.2 N. What is her density?

A) 1050 kg/m3
B) 1040 kg/m3
C) 1030 kg/m3
D) 960 kg/m3
E) 56.1 kg/m3
Question
A 12,000-N car is raised using a hydraulic lift, which consists of a U-tube with arms of unequal areas, filled with incompressible oil and capped at both ends with tight-fitting pistons. The wider arm of the U-tube has a radius of 18.0 cm and the narrower arm has a radius of 5.00 cm. The car rests on the piston on the wider arm of the U-tube. The pistons are initially at the same level. What is the initial force that must be applied to the smaller piston in order to start lifting the car? (For purposes of this problem, you can neglect the weight of the pistons.)

A) 727 N
B) 926 N
C) 2900 N
D) 3330 N
E) 1.20 kN
Question
A 12,000-N car is raised using a hydraulic lift, which consists of a U-tube with arms of unequal areas, filled with incompressible oil with a density of 800 kg/m3 and capped at both ends with tight-fitting pistons. The wider arm of the U-tube has a radius of 18.0 cm and the narrower arm has a radius of 5.00 cm. The car rests on the piston on the wider arm of the U-tube. The pistons are initially at the same level. What is the force that must be applied to the smaller piston in order to lift the car after it has been raised 1.20 m? (For purposes of this problem, you can neglect the weight of the pistons.)

A) 0.954 kN
B) 1.88 kN
C) 1.96 kN
D) 3.67 kN
E) 1.20 kN
Question
In the figure, an open tank contains a layer of oil floating on top of a layer of water (of density 1000 kg/m3) that is 3.0 m thick, as shown. What must be the thickness of the oil layer if the gauge pressure at the bottom of the tank is to be 5.0 x 104 Pa? The density of the oil is 510 kg/m3. In the figure, an open tank contains a layer of oil floating on top of a layer of water (of density 1000 kg/m<sup>3</sup>) that is 3.0 m thick, as shown. What must be the thickness of the oil layer if the gauge pressure at the bottom of the tank is to be 5.0 x 10<sup>4</sup> Pa? The density of the oil is 510 kg/m<sup>3</sup>. <div style=padding-top: 35px>
Question
The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m3. The manometer contains incompressible mercury with a density of 13,600 kg/m3. What is the difference in elevation h if the manometer reading m is 25.0 cm? <strong>The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m<sup>3</sup>. The manometer contains incompressible mercury with a density of 13,600 kg/m<sup>3</sup>. What is the difference in elevation h if the manometer reading m is 25.0 cm? </strong> A) 1.58 m B) 4.20 m C) 3.75 m D) 3.40 m E) 3.15 m <div style=padding-top: 35px>

A) 1.58 m
B) 4.20 m
C) 3.75 m
D) 3.40 m
E) 3.15 m
Question
As shown in the figure, a container has a vertical tube, whose inner radius is 32.00 mm, connected to it at its side. An unknown liquid reaches level A in the container and level B in the tube-level A being 5.0 cm higher than level B. The liquid supports a 20.0-cm high column of oil, between levels B and C, whose density is 460 kg/m3. What is the density of the unknown liquid? <strong>As shown in the figure, a container has a vertical tube, whose inner radius is 32.00 mm, connected to it at its side. An unknown liquid reaches level A in the container and level B in the tube-level A being 5.0 cm higher than level B. The liquid supports a 20.0-cm high column of oil, between levels B and C, whose density is 460 kg/m<sup>3</sup>. What is the density of the unknown liquid? </strong> A) 1800 kg/m<sup>3</sup> B) 2000 kg/m<sup>3</sup> C) 1400 kg/m<sup>3</sup> D) 1600 kg/m<sup>3</sup> E) 1700 kg/m<sup>3</sup> <div style=padding-top: 35px>

A) 1800 kg/m3
B) 2000 kg/m3
C) 1400 kg/m3
D) 1600 kg/m3
E) 1700 kg/m3
Question
Incompressible water flows out of a large reservoir through a pipe that opens to the atmosphere 5.70 m below the level of the water in the reservoir. What is the speed of the water as it comes out of the pipe?

A) 1.72 m/s
B) 7.47 m/s
C) 55.8 m/s
D) 10.6 m/s
E) 27.9 m/s
Question
In a section of horizontal pipe with a diameter of 3.00 cm the pressure is 5.21 kPa and water is flowing with a speed of 1.50 m/s. The pipe narrows to 2.50 cm. What is the pressure in the narrower region if water behaves like an ideal fluid of density 1000 kg/m3?

A) 4.00 kPa
B) 7.50 kPa
C) 5.82 kPa
D) 6.42 kPa
E) 4.61 kPa
Question
A steel guitar string with a diameter of 0.300 mm and a length of 70.0 cm is stretched by 0.500 mm while being tuned. How much force is needed to stretch the string by this amount? Young's modulus for steel is 2.0 × 1011 N/m2.
Question
Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?

A) d/4
B) d/2
C) d / <strong>Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?</strong> A) d/4 B) d/2 C) d / D) d E) 2d <div style=padding-top: 35px>
D) d <strong>Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?</strong> A) d/4 B) d/2 C) d / D) d E) 2d <div style=padding-top: 35px>
E) 2d
Question
A 1000-kg object hangs from the lower end of a steel rod 5.0 m long that is suspended vertically. The diameter of the rod is 0.80 cm and Young's modulus for the rod is 210,000 MN/m2. What is the elongation of the rod due to this object?

A) 1.2 cm
B) 0.46 cm
C) 0.12 cm
D) 1.8 cm
E) 0.047 cm
Question
Water, of density 1000 kg/m3, is flowing in a drainage channel of rectangular cross-section. The width of the channel is 15 m, the depth of the water is 8.0 m and the speed of the flow is 2.5 m/s. At what rate is water flowing in this channel?

A) 2.0 × 105 kg/s
B) 2.0 × 103 kg/s
C) 3.0 × 105 kg/s
D) 3.0 × 103 kg/s
E) 3.0 × 102 kg/s
Question
Water flowing through a pipe suddenly comes to a section of pipe where the pipe diameter decreases to 86% of its previous value. If the speed of the water in the larger section of the pipe was 36 m/s, what is its speed in this smaller section?

A) 49 m/s
B) 42 m/s
C) 31 m/s
D) 27 m/s
Question
The tensile strength (the maximum tensile stress it can support without breaking) for a certain steel wire is 3000 MN/m2. What is the maximum load that can be applied to a wire with a diameter of 3.0 mm made of this steel without breaking the wire?

A) 64 kN
B) 9.0 kN
C) 42 kN
D) 85 kN
E) 21 kN
Question
Water flows in the horizontal pipe shown in the figure. At point A the area is 25.0 cm2 and the speed of the water is 2.00 m/s. At B the area is 16.0 cm2. The fluid in the manometer is mercury, which has a density of 13,600 kg/m3. We can treat water as an ideal fluid having a density of 1000 kg/m3. What is the manometer reading h? <strong>Water flows in the horizontal pipe shown in the figure. At point A the area is 25.0 cm<sup>2</sup> and the speed of the water is 2.00 m/s. At B the area is 16.0 cm<sup>2</sup>. The fluid in the manometer is mercury, which has a density of 13,600 kg/m<sup>3</sup>. We can treat water as an ideal fluid having a density of 1000 kg/m<sup>3</sup>. What is the manometer reading h? </strong> A) 0.546 cm B) 1.31 cm C) 2.81 cm D) 2.16 cm E) 3.36 cm <div style=padding-top: 35px>

A) 0.546 cm
B) 1.31 cm
C) 2.81 cm
D) 2.16 cm
E) 3.36 cm
Question
A 0.600-mm diameter wire stretches 0.500% of its length when it is stretched with a tension of 20.0 N. What is the Young's modulus of this wire?

A) 5.66 × 1010 N/m2
B) 3.54 × 109 N/m2
C) 1.41 × 1010 N/m2
D) 6.43 × 109 N/m2
E) 2.78 × 109 N/m2
Question
A horizontal tube consists of a 7.0-cm diameter pipe that narrows to a 2.0-cm-diameter throat. In the pipe, the water pressure is twice atmospheric pressure and the water flows with a speed of 0.40 m/s. What is the pressure in the throat, assuming that the water behaves like an ideal fluid? The density of water is 1000 kg/m3, and atmospheric pressure is 1.01 × 105 Pa.

A) 1.9 atm
B) 0.12 atm
C) 2.1 atm
D) 2.0 atm
Question
Consider a very small hole in the bottom of a tank 20.0 cm in diameter filled with water to a height of 50.0 cm. Find the speed at which the water exits the tank through the hole.

A) 3.13 m/s
B) 9.80 m/s
C) 31.8 m/s
D) 34.9 m/s
Question
A cable is 100 m long, has a cross-sectional area of 1.0 mm2, and is made of a material having a Young's modulus of 1.0 × 1011 N/m2. If a 1000-N force is applied to stretch the cable, how far does it stretch?

A) 0.0010 m
B) 0.010 m
C) 0.10 m
D) 1.0 m
E) 10 m
Question
Air is flowing through a rocket nozzle. Inside the rocket the air has a density of 5.25 kg/m3 and a speed of 1.20 m/s. The interior diameter of the rocket is 15.0 cm. At the nozzle exit, the diameter is 2.50 cm and the density is 1.29 kg/m3. What is the speed of the air when it leaves the nozzle?

A) 123 m/s
B) 176 m/s
C) 88.0 m/s
D) 45.7 m/s
E) 29.3 m/s
Question
A paint sprayer pumps air through a constriction in a 2.50-cm diameter pipe, as shown in the figure. The flow causes the pressure in the constricted area to drop and paint rises up the feed tube and enters the air stream. The speed of the air stream in the 2.50-cm diameter sections is 5.00 m/s. The density of the air is 1.29 kg/m3, and the density of the paint is 1200 kg/m3. We can treat the air and paint as incompressible ideal fluids. What is the maximum diameter of the constriction that will allow the sprayer to operate? <strong>A paint sprayer pumps air through a constriction in a 2.50-cm diameter pipe, as shown in the figure. The flow causes the pressure in the constricted area to drop and paint rises up the feed tube and enters the air stream. The speed of the air stream in the 2.50-cm diameter sections is 5.00 m/s. The density of the air is 1.29 kg/m<sup>3</sup>, and the density of the paint is 1200 kg/m<sup>3</sup>. We can treat the air and paint as incompressible ideal fluids. What is the maximum diameter of the constriction that will allow the sprayer to operate? </strong> A) 8.07 mm B) 4.05 mm C) 12.2 mm D) 9.65 mm E) 14.3 mm <div style=padding-top: 35px>

A) 8.07 mm
B) 4.05 mm
C) 12.2 mm
D) 9.65 mm
E) 14.3 mm
Question
A level pipe contains a nonviscous, incompressible fluid with a density 1200 kg/m3 that is flowing steadily. At one position within the pipe, the pressure is 300 kPa and the speed of the flow is 20.0 m/s. At another position, the pressure is 200 kPa. What is the speed of the flow at this second position?

A) 567 m/s
B) 16.2 m/s
C) 32.9 m/s
D) 23.8 m/s
E) 186 m/s
Question
Water flows in the horizontal pipe shown in the figure. At A the diameter is 5.00 cm and at B the diameter is 4.00 cm The fluid in the manometer is mercury, which has a density of 13,600 kg/m3. The manometer reading h is 4.40 cm. We can treat water as an ideal fluid having a density of 1000 kg/m3. What volume of water is flowing through the pipe per second? <strong>Water flows in the horizontal pipe shown in the figure. At A the diameter is 5.00 cm and at B the diameter is 4.00 cm The fluid in the manometer is mercury, which has a density of 13,600 kg/m<sup>3</sup>. The manometer reading h is 4.40 cm. We can treat water as an ideal fluid having a density of 1000 kg/m<sup>3</sup>. What volume of water is flowing through the pipe per second? </strong> A) 0.0206 m<sup>3</sup>/s B) 0.0426 m<sup>3</sup>/s C) 0.00560 m<sup>3</sup>/s D) 0.372 m<sup>3</sup>/s E) 0.186 m<sup>3</sup>/s <div style=padding-top: 35px>

A) 0.0206 m3/s
B) 0.0426 m3/s
C) 0.00560 m3/s
D) 0.372 m3/s
E) 0.186 m3/s
Question
A large cylindrical water tank is mounted on a platform with its central axis vertical. The water level is 3.75 m above the base of the tank, and base is 6.50 m above the ground. A small hole 2.22 mm in diameter has formed in the base of the tank. Both the hole and the top of the tank are open to the air. We can ignore air resistance and treat water as an ideal fluid with a density of 1000 kg/m3.
(a) How many cubic meters of water per second is this tank losing?
(b) How fast is the water from the hole moving just as it reaches the ground?
Question
An incompressible fluid flows steadily through a pipe that has a change in diameter. The fluid speed at a location where the pipe diameter is 8.0 cm is 1.28 m/s. What is the fluid speed at a location where the diameter has narrowed to 4.0 cm?

A) 0.32 m/s
B) 0.64 m/s
C) 1.28 m/s
D) 2.56 m/s
E) 5.12 m/s
Question
A steel lift column in a service station is a solid cylinder 4.0 m long and 0.20 m in diameter. Young's modulus for this steel is 20 × 1010 N/m2. By what distance does the column compress when a 5000-kg truck is on it?

A) 4.7 × 10-7 m
B) 8.0 × 10-7 m
C) 3.2 × 10-6 m
D) 7.8 × 10-6 m
E) 3.1 × 10-5 m
Question
At a depth of about 1030 m in the sea, the pressure has increased by 100 atmospheres (to 1.0 × 107 N/m2). By how much has 1.0 m3 of water been compressed by this pressure? The bulk modulus of water is 2.3 × 109 N/m2.

A) 2.3 × 10-3 m3
B) 3.3 × 10-3 m3
C) 4.3 × 10-3 m3
D) 5.3 × 10-3 m3
E) 6.3 × 10-3 m3
Question
An aluminum wire and a steel wire, each of length 2.0 m, are hung from the ceiling. A 5.0-kg mass is suspended from the lower end of each wire. The aluminum wire has a diameter of 2.2 mm. What must be the diameter of the steel wire if it is to stretch the same distance as the aluminum wire, so that the two wires maintain equal lengths after the masses are attached? Young's modulus for aluminum is 0.70 × 1011 N/m2 and for steel it is 2.0 × 1011 N/m2.
Question
A 12-L volume of oil is subjected to a pressure change, which produces a volume strain on the oil of -3.0 × 10-4. The bulk modulus of the oil is 6.0 × 109 N/m2 and is independent of the pressure. By how many milliliters does this pressure reduce the volume of the oil?

A) 2.0 mL
B) 2.4 mL
C) 2.8 mL
D) 3.2 mL
E) 3.6 mL
Question
A steel rod 55 cm long has a diameter of 30 cm. The compressive strength (the maximum stress it can support without breaking) of this steel is 500 × 106 N/m2. What is the compression force that would break the rod?

A) 3.5 × 107 N
B) 2.4 × 107 N
C) 1.4 × 108 N
D) 4.7 × 108 N
E) 8.9 × 108 N
Question
When the pressure applied to an unknown liquid is increased from 1.0 × 107 N/m2 to 5.5 × 107 N/m2, the volume of the liquid decreases by 0.70%. Calculate the bulk modulus of the liquid.
Question
A very light 1.00-m wire consists of two segments of equal length, one of steel (Young's modulus is 2.00 × 1011 N/m2) and one of brass (Young's modulus is 9.0 × 1010 N/m2). The steel segment is 1.50 mm in diameter, and the brass segment has twice this diameter. When a weight w is hung from the ceiling by this wire, the steel segment stretches by 1.10 mm. Find the weight w.

A) 190 N
B) 390 N
C) 780 N
D) 1000 N
E) 3100 N
Question
A 12-L volume of oil is subjected to a pressure change, which produces a volume strain on the oil of -3.0 × 10-4. The bulk modulus of the oil is 6.0 × 109 N/m2 and is independent of the pressure. What is the pressure change that produced the volume strain in the oil?

A) 1.2 MN/m2
B) 1.4 MN/m2
C) 1.6 MN/m2
D) 1.8 MN/m2
E) 2.0 MN/m2
Question
What is the maximum length of a metal cable that can hang vertically supported from one end of the cable? The Young's modulus of this metal is 2.10 × 1011 N/m2, its tensile strength (the maximum tensile stress it can support without breaking) is 7.40 × 108 N/m2, and its density is 7.60 × 103 kg/m3.

A) 9.94 km
B) 4.22 km
C) 456 km
D) 1.75 km
E) 24.8 km
Question
A solid steel sphere with a radius of 2.0 m falls off a ship and sinks to a depth where the pressure is 15 MN/m2. The bulk modulus for this steel is 1.6 × 1011 N/m2. What is the change in the radius of the sphere?

A) -0.021 mm
B) -4.2 mm
C) -0.42 mm
D) -0.19 mm
E) -0.062 mm
Question
A copper sphere has a radius of 2.50 m under normal room pressure of 1.0 × 105 N/m2. If we increase the pressure on this sphere to 10 times the normal room pressure, what is the change in its volume? The bulk modulus for copper is 1.4 × 1011 Pa.
Question
A sample of tendon 3.00 cm long and 4.00 mm in diameter is found to break under a minimum force of 128 N. If instead the sample had been 1.50 cm long and of uniform composition and cross-sectional area, what minimum force would have been required to break it?

A) 32 N
B) 64 N
C) 128 N
D) 256 N
E) 512 N
Question
A very light 1.00-m wire consists of two segments of equal length, one of steel (Young's modulus is 2.00 × 1011 N/m2) and one of brass (Young's modulus is 9.0 × 1010 N/m2). The steel segment is 1.50 mm in diameter, and the brass segment has twice this diameter. When a weight w is hung from the ceiling by this wire, the steel segment stretches by 1.10 mm. By what distance does the brass segment stretch?

A) 0.50 mm
B) 0.61 mm
C) 1.2 mm
D) 2.4 mm
E) 9.8 mm
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Deck 15: Fluids and Elasticity
1
Tensile train is

A) the ratio of the change in length to the original length.
B) the stress per unit area.
C) the same as force.
D) the applied force per cross-sectional area.
E) the ratio of stress to elastic modulus.
the ratio of the change in length to the original length.
2
A rock is under water in a shallow lake. As the rock sinks deeper and deeper into water, the buoyant force on it

A) increases.
B) decreases.
C) remains constant.
remains constant.
3
Salt water is more dense than fresh water. A ship floats in both fresh water and salt water. Compared to the fresh water, the volume of salt water displaced by the ship is

A) greater than the volume of fresh water.
B) less than the volume of fresh water.
C) the same as the volume of fresh water.
less than the volume of fresh water.
4
Water flows through a pipe having a varying width. More water flows per second through the wide section than through the narrow section because there is more room for it to flow.
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5
A certain coin has a diameter of 21.21 mm, a thickness of 1.95 mm, and weighs 0.04905 N. What is its density?

A) 29.1 × 103 kg/m3
B) 7.26 × 103 kg/m3
C) 9.25 × 103 kg/m3
D) 2.31 × 103 kg/m3
E) 71.2 × 103 kg/m3
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6
When you blow some air above the upper face of a paper strip, the paper rises. This occurs because

A) the air above the upper face of the paper moves faster, which makes the pressure higher than at the lower face.
B) the air above the upper face of the paper moves faster, which makes the pressure lower than at the lower face.
C) the air above the upper face of the paper moves faster but the pressure remains constant.
D) the air above the upper face of the paper moves slower, which makes the pressure higher than at the lower face.
E) the air above the upper face of the paper moves slower, which makes the pressure lower than at the lower face.
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7
A 50-cm3 block of wood is floating partially submerged in water, and a 50-cm3 block of iron is totally submerged in water. Which block has the greater buoyant force on it?

A) the wood
B) the iron
C) Both have the same buoyant force.
D) The answer cannot be determined without knowing the densities of the blocks.
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8
As the speed of a moving fluid increases, the pressure in the fluid

A) increases.
B) remains constant.
C) decreases.
D) may increase or decrease, depending on the density of the fluid.
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9
A cup of water containing an ice cube at 0°C is filled to the brim. The tip of the ice cube sticks out of the surface. As the ice melts, you observe that

A) the cup overflows.
B) the cup might overflow but it depends on the actual mass of the ice cube.
C) the water level remains the same.
D) the water level actually goes down.
E) There is not enough information to answer this question.
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10
What is the radius of a sphere that has a density of 5000 kg/m3 and a mass of 6.00 kg?

A) 4.98 cm
B) 1.27 cm
C) 6.59 cm
D) 1.56 cm
E) 7.22 cm
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11
A piece of wood is floating in a bathtub. A second piece of wood sits on top of the first piece, and does not touch the water. If the top piece is taken off and placed in the water, what happens to the water level in the tub?

A) It goes up.
B) It goes down.
C) It does not change.
D) This cannot be determined without knowing the volume of the top piece of wood.
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12
At a certain depth in the ocean, the absolute pressure is p. If you go to twice that depth (treating the water as incompressible)

A) the absolute pressure will be 2p.
B) the absolute pressure will be less than 2p.
C) the absolute pressure will be greater than 2p.
D) the gauge pressure will not change.
E) the gauge pressure will increase but will not double.
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13
Fluid fills the container shown in the figure. At which of the indicated points is the pressure greatest? <strong>Fluid fills the container shown in the figure. At which of the indicated points is the pressure greatest? </strong> A) A B) B C) C D) D E) The pressure is the same at each of the labeled points.

A) A
B) B
C) C
D) D
E) The pressure is the same at each of the labeled points.
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14
If you double the pressure on the surface of a can of water, the buoyant force on a stone placed in that water will

A) increase, but not double.
B) double.
C) decrease, but not by one-half.
D) not change.
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15
Tensile stress is

A) the strain per unit length.
B) the same as force.
C) the ratio of the change in length to the original length.
D) the applied force per cross-sectional area.
E) the ratio of elastic modulus to strain.
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16
You are driving a late model convertible car at the 65 mph speed limit with its soft flexible roof closed up and the windows closed. You observe that the roof

A) bows inward.
B) is no different from when the car was at rest.
C) bows outward.
D) bows inward only when you are driving uphill.
E) bows inward only when you are driving downhill.
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17
Two compressible solids are formed into spheres of the same size. The bulk modulus of sphere two is twice as large as the bulk modulus of sphere one. You now increase the pressure on both spheres by the same amount. As a result of the increased pressure, how is the change in volume of sphere two (△V2) related to the change in volume of sphere one (ΔV1)?

A) ΔV2 = 2ΔV1
B) ΔV2 = 4ΔV1
C) vV2 = ΔV1
D) ΔV2 = 1/2ΔV1
E) ΔV2 = 1/4ΔV1
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18
A sphere is constructed of two concentric parts. The inner part is a solid sphere of radius 10.0 cm made of a material with density 4000 kg/m3. The outer part is a spherical shell with inner radius 10.0 cm and outer radius 20.0 cm. The material in the outer shell has a density 9000 kg/m3.
(a) What is the mass of the sphere?
(b) What is the average density of this sphere?
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19
One of the dangers of tornados and hurricanes is the rapid drop in air pressure that is associated with such storms. Assume that the air pressure inside of a sealed house is 1.02 atm when a hurricane hits. The hurricane rapidly decreases the external air pressure to 0.910 atm. A square window in an outside wall of the house measures 2.02 m on each side. What net force (directed outwards) is exerted on this window? (1 atm = 1.01 × 105 Pa.)

A) 4.53 × 104 N
B) 5.14 × 104 N
C) 4.78 × 105 N
D) 5.37 × 105 N
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20
The graph in the figure shows the force on an object as a function of the elongation caused by that force. Which statement about this object is true? <strong>The graph in the figure shows the force on an object as a function of the elongation caused by that force. Which statement about this object is true? </strong> A) The object obeys Hooke's law at all points from A to C. B) The object obeys Hooke's law at all points from B to C. C) The object obeys Hooke's law at all points from A to B. D) The elastic limit occurs at point C. E) The region of elastic behavior occurs from B to C.

A) The object obeys Hooke's law at all points from A to C.
B) The object obeys Hooke's law at all points from B to C.
C) The object obeys Hooke's law at all points from A to B.
D) The elastic limit occurs at point C.
E) The region of elastic behavior occurs from B to C.
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21
The small piston of a hydraulic lift has a diameter of 8.0 cm, and its large piston has a diameter of 40 cm. The lift raises a load of 15,000 N.
(a) Determine the force that must be applied to the small piston.
(b) Determine the pressure applied to the fluid in the lift.
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22
A circular cylinder of height 1.20 m having faces of diameter 0.620 m is immersed in water of density 1.00 × 103 kg/m3 with its axis vertical so that its faces are parallel to the surface of the water. The upper face is 2.50 m below the surface of the water. The net force on this cylinder is observed to be 1120 N downward. Atmospheric pressure is 1.01 × 105 Pa. What net force does the water exert on the lower face of the cylinder?

A) 7.40 × 103 N
B) 1.09 × 104 N
C) 3.79 × 104 N
D) 4.14 × 104 N
E) 1.37 × 105 N
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23
On planet X, the absolute pressure at a depth of 2.00 m below the surface of a liquid nitrogen lake is 5.00 × 105 N/m2. At a depth 5.00 m below the surface, the absolute pressure is 8.00 × 105 N/m2. The density of liquid nitrogen is 808 kg/m3.
(a) What is the atmospheric pressure on planet X?
(b) What is the acceleration due to gravity on planet X?
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24
A wooden raft has a mass of 50 kg. When empty it floats in water (density 1000 kg/m3) with 69% of its volume submerged. What mass of sand can be put on the raft without it sinking?
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25
A barge is 15.0 m wide and 75.0 m long and has vertical sides. The bottom of the hull is 1.20 m below the water surface. What is the weight of the barge and its cargo, if it is floating in fresh water of density 1000 kg/m3?

A) 22.6 MN
B) 13.2 MN
C) 1.35 MN
D) 1.13 MN
E) 11.3 MN
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26
A circular cylinder of height 1.20 m having faces of diameter 0.620 m is immersed in water of density 1.00 × 103 kg/m3 with its axis vertical so that its faces are parallel to the surface of the water. The upper face is 2.50 m below the surface of the water. The net force on this cylinder is observed to be 1120 N downward. Atmospheric pressure is 1.01 × 105 Pa. What is the weight of the cylinder?

A) 2430 N
B) 3550 N
C) 4670 N
D) 10,900 N
E) 12,100 N
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27
A cubical box, 5.00 cm on each side, is immersed in a fluid. The gauge pressure at the top surface of the box is 594 Pa and the gauge pressure on the bottom surface is 1133 Pa. What is the density of the fluid?

A) 1000 kg/m3
B) 1100 kg/m3
C) 1220 kg/m3
D) 2340 kg/m3
E) 12,000 kg/m3
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28
A 6.1-kg solid sphere, made of metal whose density is 2600 kg/m3, is suspended by a cord. When the sphere is immersed in a liquid of unknown density, the tension in the cord is 26 N. Find the density of the liquid.

A) 1500 kg/m3
B) 1400 kg/m3
C) 1300 kg/m3
D) 1200 kg/m3
E) 1100 kg/m3
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29
A hollow steel ball of diameter 3.0 m barely floats in water. What is the thickness of the wall of the ball? The density of iron is 7.87 g/cm3 and that of water is 1000 kg/m3.

A) 6.6 cm
B) 37 cm
C) 131 cm
D) 79 cm
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30
A rock is suspended from a scale reads 20.0 N. A beaker of water (having a density of 1000 kg/m3) is raised up so the rock is totally submerged in the water. The scale now reads 12.5 N. What is the density of the rock?

A) 1.60 × 103 kg/m3
B) 2.50 × 103 kg/m3
C) 2.33 × 103 kg/m3
D) 3.00 × 103 kg/m3
E) 2.67 × 103 kg/m3
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31
A 7.8-kg solid sphere, made of metal whose density is 2500 kg/m3, is suspended by a cord. When the sphere is immersed in water (of density 1000 kg/m3), what is the tension in the cord?

A) 46 N
B) 61 N
C) 76 N
D) 92 N
E) 110 N
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32
The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m3. The manometer contains incompressible oil with a density of 820 kg/m3. What is the difference in elevation h if the manometer reading m is 25.0 cm? <strong>The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m<sup>3</sup>. The manometer contains incompressible oil with a density of 820 kg/m<sup>3</sup>. What is the difference in elevation h if the manometer reading m is 25.0 cm? </strong> A) 0.045 m B) 0.025 m C) 0.065 m D) 0.115 m E) 0.205 m

A) 0.045 m
B) 0.025 m
C) 0.065 m
D) 0.115 m
E) 0.205 m
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33
A board that is 20.0 cm wide, 5.00 cm thick, and 3.00 m long has a density 350 kg/m3. The board is floating partially submerged in water of density 1000 kg/m3. What fraction of the volume of the board is above the surface of the water?

A) 0.350
B) 0.650
C) zero
D) 0.200
E) The answer depends on which edge of the board is vertical.
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34
The weight of a car of mass 1.20 × 103 kg is supported equally by the four tires, which are inflated to the same gauge pressure. What gauge pressure in the tires is required so the area of contact of each tire with the road is 1.00 × 102 cm2? (1 atm = 1.01 × 105 Pa.)

A) 11.6 × 105 Pa
B) 11.6 × 104 Pa
C) 2.94 × 105 Pa
D) 2.94 × 104 Pa
E) 2.94 × 103 Pa
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35
A person who weighs 550 N empties her lungs as much as possible and is then completely immersed in water (of density 1000 kg/m3) while suspended from a harness. Her apparent weight is now 21.2 N. What is her density?

A) 1050 kg/m3
B) 1040 kg/m3
C) 1030 kg/m3
D) 960 kg/m3
E) 56.1 kg/m3
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36
A 12,000-N car is raised using a hydraulic lift, which consists of a U-tube with arms of unequal areas, filled with incompressible oil and capped at both ends with tight-fitting pistons. The wider arm of the U-tube has a radius of 18.0 cm and the narrower arm has a radius of 5.00 cm. The car rests on the piston on the wider arm of the U-tube. The pistons are initially at the same level. What is the initial force that must be applied to the smaller piston in order to start lifting the car? (For purposes of this problem, you can neglect the weight of the pistons.)

A) 727 N
B) 926 N
C) 2900 N
D) 3330 N
E) 1.20 kN
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37
A 12,000-N car is raised using a hydraulic lift, which consists of a U-tube with arms of unequal areas, filled with incompressible oil with a density of 800 kg/m3 and capped at both ends with tight-fitting pistons. The wider arm of the U-tube has a radius of 18.0 cm and the narrower arm has a radius of 5.00 cm. The car rests on the piston on the wider arm of the U-tube. The pistons are initially at the same level. What is the force that must be applied to the smaller piston in order to lift the car after it has been raised 1.20 m? (For purposes of this problem, you can neglect the weight of the pistons.)

A) 0.954 kN
B) 1.88 kN
C) 1.96 kN
D) 3.67 kN
E) 1.20 kN
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38
In the figure, an open tank contains a layer of oil floating on top of a layer of water (of density 1000 kg/m3) that is 3.0 m thick, as shown. What must be the thickness of the oil layer if the gauge pressure at the bottom of the tank is to be 5.0 x 104 Pa? The density of the oil is 510 kg/m3. In the figure, an open tank contains a layer of oil floating on top of a layer of water (of density 1000 kg/m<sup>3</sup>) that is 3.0 m thick, as shown. What must be the thickness of the oil layer if the gauge pressure at the bottom of the tank is to be 5.0 x 10<sup>4</sup> Pa? The density of the oil is 510 kg/m<sup>3</sup>.
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39
The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m3. The manometer contains incompressible mercury with a density of 13,600 kg/m3. What is the difference in elevation h if the manometer reading m is 25.0 cm? <strong>The two water reservoirs shown in the figure are open to the atmosphere, and the water has density 1000 kg/m<sup>3</sup>. The manometer contains incompressible mercury with a density of 13,600 kg/m<sup>3</sup>. What is the difference in elevation h if the manometer reading m is 25.0 cm? </strong> A) 1.58 m B) 4.20 m C) 3.75 m D) 3.40 m E) 3.15 m

A) 1.58 m
B) 4.20 m
C) 3.75 m
D) 3.40 m
E) 3.15 m
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40
As shown in the figure, a container has a vertical tube, whose inner radius is 32.00 mm, connected to it at its side. An unknown liquid reaches level A in the container and level B in the tube-level A being 5.0 cm higher than level B. The liquid supports a 20.0-cm high column of oil, between levels B and C, whose density is 460 kg/m3. What is the density of the unknown liquid? <strong>As shown in the figure, a container has a vertical tube, whose inner radius is 32.00 mm, connected to it at its side. An unknown liquid reaches level A in the container and level B in the tube-level A being 5.0 cm higher than level B. The liquid supports a 20.0-cm high column of oil, between levels B and C, whose density is 460 kg/m<sup>3</sup>. What is the density of the unknown liquid? </strong> A) 1800 kg/m<sup>3</sup> B) 2000 kg/m<sup>3</sup> C) 1400 kg/m<sup>3</sup> D) 1600 kg/m<sup>3</sup> E) 1700 kg/m<sup>3</sup>

A) 1800 kg/m3
B) 2000 kg/m3
C) 1400 kg/m3
D) 1600 kg/m3
E) 1700 kg/m3
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41
Incompressible water flows out of a large reservoir through a pipe that opens to the atmosphere 5.70 m below the level of the water in the reservoir. What is the speed of the water as it comes out of the pipe?

A) 1.72 m/s
B) 7.47 m/s
C) 55.8 m/s
D) 10.6 m/s
E) 27.9 m/s
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42
In a section of horizontal pipe with a diameter of 3.00 cm the pressure is 5.21 kPa and water is flowing with a speed of 1.50 m/s. The pipe narrows to 2.50 cm. What is the pressure in the narrower region if water behaves like an ideal fluid of density 1000 kg/m3?

A) 4.00 kPa
B) 7.50 kPa
C) 5.82 kPa
D) 6.42 kPa
E) 4.61 kPa
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43
A steel guitar string with a diameter of 0.300 mm and a length of 70.0 cm is stretched by 0.500 mm while being tuned. How much force is needed to stretch the string by this amount? Young's modulus for steel is 2.0 × 1011 N/m2.
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44
Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?

A) d/4
B) d/2
C) d / <strong>Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?</strong> A) d/4 B) d/2 C) d / D) d E) 2d
D) d <strong>Water is flowing in a horizontal pipe of diameter d. If you want to change the diameter of this pipe so that the speed of the water would be half as great as it was, what should be the new diameter?</strong> A) d/4 B) d/2 C) d / D) d E) 2d
E) 2d
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45
A 1000-kg object hangs from the lower end of a steel rod 5.0 m long that is suspended vertically. The diameter of the rod is 0.80 cm and Young's modulus for the rod is 210,000 MN/m2. What is the elongation of the rod due to this object?

A) 1.2 cm
B) 0.46 cm
C) 0.12 cm
D) 1.8 cm
E) 0.047 cm
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46
Water, of density 1000 kg/m3, is flowing in a drainage channel of rectangular cross-section. The width of the channel is 15 m, the depth of the water is 8.0 m and the speed of the flow is 2.5 m/s. At what rate is water flowing in this channel?

A) 2.0 × 105 kg/s
B) 2.0 × 103 kg/s
C) 3.0 × 105 kg/s
D) 3.0 × 103 kg/s
E) 3.0 × 102 kg/s
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47
Water flowing through a pipe suddenly comes to a section of pipe where the pipe diameter decreases to 86% of its previous value. If the speed of the water in the larger section of the pipe was 36 m/s, what is its speed in this smaller section?

A) 49 m/s
B) 42 m/s
C) 31 m/s
D) 27 m/s
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48
The tensile strength (the maximum tensile stress it can support without breaking) for a certain steel wire is 3000 MN/m2. What is the maximum load that can be applied to a wire with a diameter of 3.0 mm made of this steel without breaking the wire?

A) 64 kN
B) 9.0 kN
C) 42 kN
D) 85 kN
E) 21 kN
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49
Water flows in the horizontal pipe shown in the figure. At point A the area is 25.0 cm2 and the speed of the water is 2.00 m/s. At B the area is 16.0 cm2. The fluid in the manometer is mercury, which has a density of 13,600 kg/m3. We can treat water as an ideal fluid having a density of 1000 kg/m3. What is the manometer reading h? <strong>Water flows in the horizontal pipe shown in the figure. At point A the area is 25.0 cm<sup>2</sup> and the speed of the water is 2.00 m/s. At B the area is 16.0 cm<sup>2</sup>. The fluid in the manometer is mercury, which has a density of 13,600 kg/m<sup>3</sup>. We can treat water as an ideal fluid having a density of 1000 kg/m<sup>3</sup>. What is the manometer reading h? </strong> A) 0.546 cm B) 1.31 cm C) 2.81 cm D) 2.16 cm E) 3.36 cm

A) 0.546 cm
B) 1.31 cm
C) 2.81 cm
D) 2.16 cm
E) 3.36 cm
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50
A 0.600-mm diameter wire stretches 0.500% of its length when it is stretched with a tension of 20.0 N. What is the Young's modulus of this wire?

A) 5.66 × 1010 N/m2
B) 3.54 × 109 N/m2
C) 1.41 × 1010 N/m2
D) 6.43 × 109 N/m2
E) 2.78 × 109 N/m2
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51
A horizontal tube consists of a 7.0-cm diameter pipe that narrows to a 2.0-cm-diameter throat. In the pipe, the water pressure is twice atmospheric pressure and the water flows with a speed of 0.40 m/s. What is the pressure in the throat, assuming that the water behaves like an ideal fluid? The density of water is 1000 kg/m3, and atmospheric pressure is 1.01 × 105 Pa.

A) 1.9 atm
B) 0.12 atm
C) 2.1 atm
D) 2.0 atm
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52
Consider a very small hole in the bottom of a tank 20.0 cm in diameter filled with water to a height of 50.0 cm. Find the speed at which the water exits the tank through the hole.

A) 3.13 m/s
B) 9.80 m/s
C) 31.8 m/s
D) 34.9 m/s
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53
A cable is 100 m long, has a cross-sectional area of 1.0 mm2, and is made of a material having a Young's modulus of 1.0 × 1011 N/m2. If a 1000-N force is applied to stretch the cable, how far does it stretch?

A) 0.0010 m
B) 0.010 m
C) 0.10 m
D) 1.0 m
E) 10 m
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54
Air is flowing through a rocket nozzle. Inside the rocket the air has a density of 5.25 kg/m3 and a speed of 1.20 m/s. The interior diameter of the rocket is 15.0 cm. At the nozzle exit, the diameter is 2.50 cm and the density is 1.29 kg/m3. What is the speed of the air when it leaves the nozzle?

A) 123 m/s
B) 176 m/s
C) 88.0 m/s
D) 45.7 m/s
E) 29.3 m/s
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55
A paint sprayer pumps air through a constriction in a 2.50-cm diameter pipe, as shown in the figure. The flow causes the pressure in the constricted area to drop and paint rises up the feed tube and enters the air stream. The speed of the air stream in the 2.50-cm diameter sections is 5.00 m/s. The density of the air is 1.29 kg/m3, and the density of the paint is 1200 kg/m3. We can treat the air and paint as incompressible ideal fluids. What is the maximum diameter of the constriction that will allow the sprayer to operate? <strong>A paint sprayer pumps air through a constriction in a 2.50-cm diameter pipe, as shown in the figure. The flow causes the pressure in the constricted area to drop and paint rises up the feed tube and enters the air stream. The speed of the air stream in the 2.50-cm diameter sections is 5.00 m/s. The density of the air is 1.29 kg/m<sup>3</sup>, and the density of the paint is 1200 kg/m<sup>3</sup>. We can treat the air and paint as incompressible ideal fluids. What is the maximum diameter of the constriction that will allow the sprayer to operate? </strong> A) 8.07 mm B) 4.05 mm C) 12.2 mm D) 9.65 mm E) 14.3 mm

A) 8.07 mm
B) 4.05 mm
C) 12.2 mm
D) 9.65 mm
E) 14.3 mm
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56
A level pipe contains a nonviscous, incompressible fluid with a density 1200 kg/m3 that is flowing steadily. At one position within the pipe, the pressure is 300 kPa and the speed of the flow is 20.0 m/s. At another position, the pressure is 200 kPa. What is the speed of the flow at this second position?

A) 567 m/s
B) 16.2 m/s
C) 32.9 m/s
D) 23.8 m/s
E) 186 m/s
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57
Water flows in the horizontal pipe shown in the figure. At A the diameter is 5.00 cm and at B the diameter is 4.00 cm The fluid in the manometer is mercury, which has a density of 13,600 kg/m3. The manometer reading h is 4.40 cm. We can treat water as an ideal fluid having a density of 1000 kg/m3. What volume of water is flowing through the pipe per second? <strong>Water flows in the horizontal pipe shown in the figure. At A the diameter is 5.00 cm and at B the diameter is 4.00 cm The fluid in the manometer is mercury, which has a density of 13,600 kg/m<sup>3</sup>. The manometer reading h is 4.40 cm. We can treat water as an ideal fluid having a density of 1000 kg/m<sup>3</sup>. What volume of water is flowing through the pipe per second? </strong> A) 0.0206 m<sup>3</sup>/s B) 0.0426 m<sup>3</sup>/s C) 0.00560 m<sup>3</sup>/s D) 0.372 m<sup>3</sup>/s E) 0.186 m<sup>3</sup>/s

A) 0.0206 m3/s
B) 0.0426 m3/s
C) 0.00560 m3/s
D) 0.372 m3/s
E) 0.186 m3/s
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58
A large cylindrical water tank is mounted on a platform with its central axis vertical. The water level is 3.75 m above the base of the tank, and base is 6.50 m above the ground. A small hole 2.22 mm in diameter has formed in the base of the tank. Both the hole and the top of the tank are open to the air. We can ignore air resistance and treat water as an ideal fluid with a density of 1000 kg/m3.
(a) How many cubic meters of water per second is this tank losing?
(b) How fast is the water from the hole moving just as it reaches the ground?
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59
An incompressible fluid flows steadily through a pipe that has a change in diameter. The fluid speed at a location where the pipe diameter is 8.0 cm is 1.28 m/s. What is the fluid speed at a location where the diameter has narrowed to 4.0 cm?

A) 0.32 m/s
B) 0.64 m/s
C) 1.28 m/s
D) 2.56 m/s
E) 5.12 m/s
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60
A steel lift column in a service station is a solid cylinder 4.0 m long and 0.20 m in diameter. Young's modulus for this steel is 20 × 1010 N/m2. By what distance does the column compress when a 5000-kg truck is on it?

A) 4.7 × 10-7 m
B) 8.0 × 10-7 m
C) 3.2 × 10-6 m
D) 7.8 × 10-6 m
E) 3.1 × 10-5 m
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61
At a depth of about 1030 m in the sea, the pressure has increased by 100 atmospheres (to 1.0 × 107 N/m2). By how much has 1.0 m3 of water been compressed by this pressure? The bulk modulus of water is 2.3 × 109 N/m2.

A) 2.3 × 10-3 m3
B) 3.3 × 10-3 m3
C) 4.3 × 10-3 m3
D) 5.3 × 10-3 m3
E) 6.3 × 10-3 m3
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62
An aluminum wire and a steel wire, each of length 2.0 m, are hung from the ceiling. A 5.0-kg mass is suspended from the lower end of each wire. The aluminum wire has a diameter of 2.2 mm. What must be the diameter of the steel wire if it is to stretch the same distance as the aluminum wire, so that the two wires maintain equal lengths after the masses are attached? Young's modulus for aluminum is 0.70 × 1011 N/m2 and for steel it is 2.0 × 1011 N/m2.
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63
A 12-L volume of oil is subjected to a pressure change, which produces a volume strain on the oil of -3.0 × 10-4. The bulk modulus of the oil is 6.0 × 109 N/m2 and is independent of the pressure. By how many milliliters does this pressure reduce the volume of the oil?

A) 2.0 mL
B) 2.4 mL
C) 2.8 mL
D) 3.2 mL
E) 3.6 mL
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64
A steel rod 55 cm long has a diameter of 30 cm. The compressive strength (the maximum stress it can support without breaking) of this steel is 500 × 106 N/m2. What is the compression force that would break the rod?

A) 3.5 × 107 N
B) 2.4 × 107 N
C) 1.4 × 108 N
D) 4.7 × 108 N
E) 8.9 × 108 N
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65
When the pressure applied to an unknown liquid is increased from 1.0 × 107 N/m2 to 5.5 × 107 N/m2, the volume of the liquid decreases by 0.70%. Calculate the bulk modulus of the liquid.
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66
A very light 1.00-m wire consists of two segments of equal length, one of steel (Young's modulus is 2.00 × 1011 N/m2) and one of brass (Young's modulus is 9.0 × 1010 N/m2). The steel segment is 1.50 mm in diameter, and the brass segment has twice this diameter. When a weight w is hung from the ceiling by this wire, the steel segment stretches by 1.10 mm. Find the weight w.

A) 190 N
B) 390 N
C) 780 N
D) 1000 N
E) 3100 N
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67
A 12-L volume of oil is subjected to a pressure change, which produces a volume strain on the oil of -3.0 × 10-4. The bulk modulus of the oil is 6.0 × 109 N/m2 and is independent of the pressure. What is the pressure change that produced the volume strain in the oil?

A) 1.2 MN/m2
B) 1.4 MN/m2
C) 1.6 MN/m2
D) 1.8 MN/m2
E) 2.0 MN/m2
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68
What is the maximum length of a metal cable that can hang vertically supported from one end of the cable? The Young's modulus of this metal is 2.10 × 1011 N/m2, its tensile strength (the maximum tensile stress it can support without breaking) is 7.40 × 108 N/m2, and its density is 7.60 × 103 kg/m3.

A) 9.94 km
B) 4.22 km
C) 456 km
D) 1.75 km
E) 24.8 km
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69
A solid steel sphere with a radius of 2.0 m falls off a ship and sinks to a depth where the pressure is 15 MN/m2. The bulk modulus for this steel is 1.6 × 1011 N/m2. What is the change in the radius of the sphere?

A) -0.021 mm
B) -4.2 mm
C) -0.42 mm
D) -0.19 mm
E) -0.062 mm
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70
A copper sphere has a radius of 2.50 m under normal room pressure of 1.0 × 105 N/m2. If we increase the pressure on this sphere to 10 times the normal room pressure, what is the change in its volume? The bulk modulus for copper is 1.4 × 1011 Pa.
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71
A sample of tendon 3.00 cm long and 4.00 mm in diameter is found to break under a minimum force of 128 N. If instead the sample had been 1.50 cm long and of uniform composition and cross-sectional area, what minimum force would have been required to break it?

A) 32 N
B) 64 N
C) 128 N
D) 256 N
E) 512 N
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72
A very light 1.00-m wire consists of two segments of equal length, one of steel (Young's modulus is 2.00 × 1011 N/m2) and one of brass (Young's modulus is 9.0 × 1010 N/m2). The steel segment is 1.50 mm in diameter, and the brass segment has twice this diameter. When a weight w is hung from the ceiling by this wire, the steel segment stretches by 1.10 mm. By what distance does the brass segment stretch?

A) 0.50 mm
B) 0.61 mm
C) 1.2 mm
D) 2.4 mm
E) 9.8 mm
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