 6.15DQ: You are holding a briefcase by the handle, with your arm straight d...
 6.15E: Meteor Crater. About 50,000 years ago, a meteor crashed into the ea...
 6.16DQ: When a book slides along a tabletop, the force of friction does neg...
 6.16E: Some Typical Kinetic Energies. (a) In the Bohr model of the atom, t...
 6.17DQ: Time yourself while running up a flight of steps, and compute the a...
 6.17E: In Fig. E6.7 assume that there is no friction force on the 20.0N b...
 6.18DQ: Fractured Physics. Many terms from physics are badly misused in eve...
 6.18E: A 4.80kg watermelon is dropped from rest from the roof of an 18.0...
 6.19DQ: An advertisement for a portable electrical generating unit claims t...
 6.19E: Use the workenergy theorem to solve each of these problems. You ca...
 6.20DQ: A car speeds up while the engine delivers constant power. Is the ac...
 6.20E: You throw a 20N rock vertically into the air from ground level. Yo...
 6.21DQ: Consider a graph of instantaneous power versus time, with the verti...
 6.21E: You are a member of an Alpine Rescue Team. You must project a box o...
 6.22DQ: A nonzero net force acts on an object. Is it possible for any of th...
 6.22E: A mass m slides down a smooth inclined plane from an initial vertic...
 6.23DQ: When a certain force is applied to an ideal spring, the spring stre...
 6.23E: A sled with mass 8.00 kg moves in a straight line on a frictionless...
 6.24DQ: If work W is required to stretch a spring a distance x from its uns...
 6.24E: A soccer ball with mass 0.420 kg is initially moving with speed 2.0...
 6.25E: A 12pack of OmniCola (mass 4.30 kg) is initially at rest on a hor...
 6.26E: A batter hits a baseball with mass 0.145 kg straight upward with an...
 6.27E: A little red wagon with mass 7.00 kg moves in a straight line on a ...
 6.28E: A block of ice with mass 2.00 kg slides 0.750 m down an inclined pl...
 6.29E: Stopping Distance. A car is traveling on a level road with speed v0...
 6.30E: A 30.0kg crate is initially moving with a velocity that has magnit...
 6.31E: BIO Heart Repair. A surgeon is using material from a donated heart ...
 6.32E: To stretch a spring 3.00 cm from its unstretched length, 12.0 J of ...
 6.33E: Three identical 8.50kg masses are hung by three identical springs ...
 6.34E: A child applies a force parallel to the x axis to a 10.0kg sled m...
 6.35E: Suppose the sled in Exercise 6.36 is initially at rest at x = 0. Us...
 6.36E: A 2.0kg box and a 3.0kg box on a perfectly smooth horizontal floo...
 6.37E: A 6.0kg box moving at 3.0 m/s on a horizontal, frictionless surfa...
 6.38E: Leg Presses. As part of your daily workout, you lie on your back an...
 6.39E: (a) In Example 6.7 (Section 6.3) it was calculated that with the ai...
 6.40E: A 4.00kg block of ice is placed against a horizontal spring that h...
 6.41E: A force is applied to a 2.0kg, radiocontrolled model car parallel...
 6.42E: Suppose the 2.0kg model car in Exercise 6.43 is initially at rest ...
 6.43E: At a waterpark, sleds with riders are sent along a slippery, horizo...
 6.44E: Half of a Spring. (a) Suppose you cut a massless ideal spring in ha...
 6.46E: An ingenious bricklayer builds a device for shooting bricks up to t...
 6.45E: A small glider is placed against a compressed spring at the bottom ...
 6.47E: CALC A force in the + xdirection with magnitude F(x) = 18.0 N – (0...
 6.48E: A crate on a motorized cart starts from rest and moves with a const...
 6.49E: How many joules of energy does a 100watt light bulb use per hour? ...
 6.50E: BIO Should You Walk or Run? It is 5.0 km from your home to the phys...
 6.51E: Magnetar. On December 27, 2004, astronomers observed the greatest f...
 6.52E: A 20.0kg rock is sliding on a rough, horizontal surface at 8.00 m/...
 6.53E: A tandem (twoperson) bicycle team must overcome a force of 165 N t...
 6.54E: When its 75kW (100hp) engine is generating full power, a small si...
 6.55E: Working Like a Horse. Your job is to lift 30kg crates a vertical d...
 6.56E: An elevator has mass 600 kg, not including passengers. The elevator...
 6.57E: A ski tow operates on a 15.0o slope of length 300 m. The rope moves...
 6.58E: The aircraft carrier John F. Kennedy has mass 7.4 × 107 kg. When it...
 6.59E: BIO While hovering, a typical flying insect applies an average forc...
 6.60P: CALC A balky cow is leaving the barn as you try harder and harder t...
 6.61P: Rotating Bar. A thin, uniform 12.0kg bar that is 2.0 m long rotate...
 6.62P: A NearEarth Asteroid. On April 13, 2029 (Friday the 13th!), the as...
 6.63P: A luggage handler pulls a 20.0kg suitcase up a ramp inclined at 25...
 6.64P: BIO Chinups. While doing a chinup, a man lifts his body 0.40 m. (...
 6.65P: A 20.0kg cate sits at rest at the bottom of a 15.0 mlong ramp tha...
 6.66P: Consider the blocks in Exercise 6.7 as they move 75.0 cm. Find the ...
 6.67P: The space shuttle, with mass 86.400 kg. is in a circularorbit of r...
 6.68P: A 5.00kg package slides 1.50 m down a long amp that is inclined at...
 6.69P: CP BIO Whiplash Injuries. When a car is hit from behind, its passen...
 6.70P: CALC A net force along the x axis that has x component Fx = 12.0...
 6.71P: An object is attracted toward the origin with a force given by Fx =...
 6.72P: The gravitational pull of the earth on an object is inversely propo...
 6.73P: CALC Varying Coefficient of Friction. A box is sliding with a speed...
 6.74P: CALC Consider a spring that does not obey Hooke’s law very faithful...
 6.75P: A small block with a mass of 0.0900 kg is attached to a cord passin...
 6.104P: CALC An airplane in flight is subject to an air resistance force pr...
 6.76P: CALC Proton Bombardment. A proton with mass 1.67 X 1027 kg is prop...
 6.77P: A block of ice with mass 4.00 kg is initially at rest on a friction...
 6.78P: You and your bicycle have combined mass 80.0 kg. When you reach the...
 6.1DQ: The sign of many physical quantities depends on the choice of coord...
 6.79P: You are asked to design spring bumpers for the walls of a parking g...
 6.80P: The spring of a spring gun has force constant k = 400 N/m and negli...
 6.1E: You push your physics book 1.50 m along a horizontal tabletop with...
 6.81P: A 2.50kg textbook is forced against a horizontal spring of negligi...
 6.2DQ: An elevator is hoisted by its cables at constant speed. Is the tota...
 6.82P: Pushing a Cat. Your cat “Ms.” (mass 7.00 kg) is trying to make it t...
 6.83P: Crash Barrier. A student proposes a design for an automobile crash ...
 6.2E: A tow truck pulls a car 5.00 km along a horizontal roadway using a ...
 6.84P: A physics professor is pushed up a ramp inclined upward at 30.0o a...
 6.85P: A 5.00kg block is moving at v0 = 6.00 m/s along a frictionless, ho...
 6.86P: Consider the system shown in Fig. P6.81. The rope and pulley have n...
 6.3DQ: A rope tied to a body is pulled, causing the body to accelerate. Bu...
 6.87P: Consider the system shown in Fig. P6.81. The rope and pulley have n...
 6.88P: Bow and Arrow. Figure shows how the force exerted by the string of ...
 6.3E: A factory worker pushes a 30.0kg crate a distance of 4.5 m along a...
 6.4DQ: If it takes total work W to give an object a speed v and kinetic en...
 6.89P: On an essentially frictionless, horizontal ice rink, a skater movin...
 6.4E: Suppose the worker in Exercise 6.3 pushes downward at an angle of 3...
 6.90P: Rescue. Your friend (mass 65.0 kg) is standing on the ice in the mi...
 6.91P: A pump is required to lift 800 kg of water (about 210 gallons) per ...
 6.92P: BIO All birds, independent of their size, must maintain a power out...
 6.93P: A physics student spends part of her day walking between classes or...
 6.5DQ: If there is a net nonzero force on a moving object, can the total w...
 6.5E: A 75.0kg painter climbs a ladder that is 2.75 m long and leans aga...
 6.94P: The Grand Coulee Dam is 1270 m long and 170 m high. The electrical ...
 6.6DQ: In Example 5.5 (Section 5.1), how does the work done on the bucket ...
 6.95P: BIO Power of the Human Heart. The human heart is a powerful and ext...
 6.6E: Two tugboats pull a disabled supertanker. Each tug exerts a constan...
 6.96P: Six diesel units in series can provide 13.4 MW of power to the lead...
 6.7DQ: In the conical pendulum in Example 5.20 (Section 5.4), which of the...
 6.97P: It takes a force of 53 kN on the lead car of a 16car passenger tra...
 6.7E: Two blocks are connected by a very light string passing over a mass...
 6.98P: CALC An object has several forces acting on it. One of these forces...
 6.99P: Cycling. For a touring bicyclist the drag coefficient is 1.00, the ...
 6.8DQ: For the cases shown in Fig. Q6.8, the object is released from rest ...
 6.100P: Automotive Power I. A truck engine transmits 28.0 kW (37.5 hp) to t...
 6.8E: A loaded grocery cart is rolling across a parking lot in a strong w...
 6.9DQ: A force is in the xdirection and has a magnitude that depends on x...
 6.101P: Automotive Power II. (a) If 8.00 hp are required to drive a 1800kg...
 6.102P: On a winter day in Maine, a warehouse worker is shoving boxes up a ...
 6.9E: A 0.800kg ball is tied to the end of a string 1.60 m long and swun...
 6.103P: CALC A Spring with Mass. We usually ignore the kinetic energy of th...
 6.10DQ: Does a car’s kinetic energy change more when the car speeds up from...
 6.10E: An 8.00kg package in a mailsorting room slides 2.00 m down a chut...
 6.11DQ: A falling brick has a mass of 1.5 kg and is moving straight downwar...
 6.11E: A boxed 10.0kg computer monitor is dragged by friction 5.50 m upwa...
 6.12DQ: Can the total work done on an object during a displacement be negat...
 6.12E: You apply a constant force to a 380kg car as the car travels 48.0 ...
 6.13DQ: A net force acts on an object and accelerates it from rest to a spe...
 6.13E: BIO Animal Energy. Adult cheetahs, the fastest of the great cats, h...
 6.14DQ: A truck speeding down the highway has a lot of kinetic energy relat...
 6.14E: A 1.50kg book is sliding along a rough horizontal surface. At poin...
 6.6.1: You push your physics book 1.50 m along a horizontal tabletop with ...
 6.6.2: A tow truck pulls a car 5.00 km along a horizontal roadway using a ...
 6.6.3: A factory worker pushes a 30.0kg crate a distance of 4.5 m along a...
 6.6.4: Suppose the worker in Exercise 6.3 pushes downward at an angle of b...
 6.6.5: A 75.0kg painter climbs a ladder that is 2.75 m long leaning again...
 6.6.6: Two tugboats pull a disabled supertanker. Each tug exerts a constan...
 6.6.7: Two blocks are connected by a very light string passing over a mass...
 6.6.8: A loaded grocery cart is rolling across a parking lot in a strong w...
 6.6.9: A 0.800kg ball is tied to the end of a string 1.60 m long and swun...
 6.6.10: An 8.00kg package in a mailsorting room slides 2.00 m down a chut...
 6.6.11: A boxed 10.0kg computer monitor is dragged by friction 5.50 m up a...
 6.6.12: You apply a constant force to a 380kg car as the car travels 48.0 ...
 6.6.13: Animal Energy. BIO Adult cheetahs, the fastest of the great cats, h...
 6.6.14: A 1.50kg book is sliding along a rough horizontal surface. At poin...
 6.6.15: Meteor Crater. About 50,000 years ago, a meteor crashed into the ea...
 6.6.16: Some Typical Kinetic Energies. (a) In the Bohr model of the atom, t...
 6.6.17: In Fig. E6.7 assume that there is no friction force on the 20.0N b...
 6.6.18: A 4.80kg watermelon is dropped from rest from the roof of a 25.0m...
 6.6.19: Use the workenergy theorem to solve each of these problems. You can...
 6.6.20: You throw a 20N rock vertically into the air from ground level. Yo...
 6.6.21: You are a member of an Alpine Rescue Team. You must project a box o...
 6.6.22: A mass m slides down a smooth inclined plane from an initial vertic...
 6.6.23: A sled with mass 8.00 kg moves in a straight line on a frictionless...
 6.6.24: A soccer ball with mass 0.420 kg is initially moving with speed A s...
 6.6.25: A 12pack of OmniCola (mass 4.30 kg) is initially at rest on a hor...
 6.6.26: A batter hits a baseball with mass 0.145 kg straight upward with an...
 6.6.27: A little red wagon with mass 7.00 kg moves in a straight line on a ...
 6.6.28: A block of ice with mass 2.00 kg slides 0.750 m down an inclined pl...
 6.6.29: Stopping Distance. A car is traveling on a level road with speed at...
 6.6.30: A 30.0kg crate is initially moving with a velocity that has magnit...
 6.6.31: Heart Repair. A surgeon is using material from a donated heart to r...
 6.6.32: To stretch a spring 3.00 cm from its unstretched length, 12.0 J of ...
 6.6.33: Three identical 6.40kg masses are hung by three identical springs,...
 6.6.34: A child applies a force parallel to the xaxis to a 10.0kg sled mo...
 6.6.35: Suppose the sled in Exercise 6.34 is initially at rest at Use the w...
 6.6.36: A 2.0kg box and a 3.0kg box on a perfectly smooth horizontal floo...
 6.6.37: A 6.0kg box moving at on a horizontal, frictionless surface runs i...
 6.6.38: Leg Presses. As part of your daily workout, you lie on your back an...
 6.6.39: (a) In Example 6.7 (Section 6.3) it was calculated that with the ai...
 6.6.40: A 4.00kg block of ice is placed against a horizontal spring that h...
 6.6.41: A force is applied to a 2.0kg radiocontrolled model car parallel ...
 6.6.42: Suppose the 2.0kg model car in Exercise 6.41 is initially at rest ...
 6.6.43: At a waterpark, sleds with riders are sent along a slippery, horizo...
 6.6.44: Half of a Spring. (a) Suppose you cut a massless ideal spring in ha...
 6.6.45: A small glider is placed against a compressed spring at the bottom ...
 6.6.46: An ingenious bricklayer builds a device for shooting bricks up to t...
 6.6.47: CALC A force in the ?xdirection with magnitude is applied to a 6.0...
 6.6.48: A crate on a motorized cart starts from rest and moves with a const...
 6.6.49: How many joules of energy does a 100watt light bulb use per hour? ...
 6.6.50: Should You Walk or Run? It is 5.0 km from your home to the physics ...
 6.6.51: Magnetar. On December 27, 2004, astronomers observed the greatest f...
 6.6.52: A 20.0kg rock is sliding on a rough, horizontal surface at and eve...
 6.6.53: A tandem (twoperson) bicycle team must overcome a force of 165 N t...
 6.6.54: When its 75kW (100hp) engine is generating full power, a small si...
 6.6.55: Working Like a Horse. Your job is to lift 30kg crates a vertical d...
 6.6.56: An elevator has mass 600 kg, not including passengers. The elevator...
 6.6.57: A ski tow operates on a slope of length 300 m. The rope moves at an...
 6.6.58: The aircraft carrier John F. Kennedy has mass When its engines are ...
 6.6.59: A typical flying insect applies an average force equal to twice its...
 6.6.60: A balky cow is leaving the barn as you try harder and harder to pus...
 6.6.61: Rotating Bar. A thin, uniform 12.0kg bar that is 2.00 m long rotat...
 6.6.62: A NearEarth Asteroid. On April 13, 2029 (Friday the 13th!), the as...
 6.6.63: A luggage handler pulls a 20.0kg suitcase up a ramp inclined at ab...
 6.6.64: ChinUps. While doing a chinup, a man lifts his body 0.40 m. (a) H...
 6.6.65: A 20.0kg crate sits at rest at the bottom of a 15.0mlong ramp th...
 6.6.66: Consider the blocks in Exercise 6.7 as they move 75.0 cm. Find the ...
 6.6.67: The space shuttle, with mass 86,400 kg, is in a circular orbit of r...
 6.6.68: A 5.00kg package slides 1.50 m down a long ramp that is inclined a...
 6.6.69: Whiplash Injuries. When a car is hit from behind, its passengers un...
 6.6.70: A net force along the xaxis that has xcomponent is applied to a 5...
 6.6.71: An object is attracted toward the origin with a force given by (Gra...
 6.6.72: The gravitational pull of the earth on an object is inversely propo...
 6.6.73: Varying Coefficient of Friction. A box is sliding with a speed of o...
 6.6.74: Consider a spring that does not obey Hookes law very faithfully. On...
 6.6.75: A small block with a mass of 0.0900 kg is attached to a cord passin...
 6.6.76: Proton Bombardment. A proton with mass is propelled at an initial s...
 6.6.77: A block of ice with mass 4.00 kg is initially at rest on a friction...
 6.6.78: You and your bicycle have combined mass 80.0 kg. When you reach the...
 6.6.79: You are asked to design spring bumpers for the walls of a parking g...
 6.6.80: The spring of a spring gun has force constant and negligible mass. ...
 6.6.81: A 2.50kg textbook is forced against a horizontal spring of negligi...
 6.6.82: Pushing a Cat. Your cat Ms. (mass 7.00 kg) is trying to make it to ...
 6.6.83: Crash Barrier. A student proposes a design for an automobile crash ...
 6.6.84: A physics professor is pushed up a ramp inclined upward at above th...
 6.6.85: A 5.00kg block is moving at along a frictionless, horizontal surfa...
 6.6.86: Consider the system shown in Fig. P6.86. The rope and pulley have n...
 6.6.87: Consider the system shown in Fig. P6.86. The rope and pulley have n...
 6.6.88: CALC Bow and Arrow. Figure P6.88 shows how the force exerted by the...
 6.6.89: On an essentially frictionless, horizontal ice rink, a skater movin...
 6.6.90: Rescue. Your friend (mass 65.0 kg) is standing on the ice in the mi...
 6.6.91: A pump is required to lift 800 kg of water (about 210 gallons) per ...
 6.6.92: BIO All birds, independent of their size, must maintain a power out...
 6.6.93: A physics student spends part of her day walking between classes or...
 6.6.94: The Grand Coulee Dam is 1270 m long and 170 m high. The electrical ...
 6.6.95: extremely reliable pump. Each day it takes in and discharges about ...
 6.6.96: Six diesel units in series can provide 13.4 MW of power to the lead...
 6.6.97: It takes a force of 53 kN on the lead car of a 16car passenger tra...
 6.6.98: An object has several forces acting on it. One of these forces is a...
 6.6.99: Cycling. For a touring bicyclist the drag coefficient is 1.00, the ...
 6.6.100: Automotive Power I. A truck engine transmits 28.0 kW (37.5 hp) to t...
 6.6.101: Automotive Power II. (a) If 8.00 hp are required to drive a 1800kg...
 6.6.102: CALC On a winter day in Maine, a warehouse worker is shoving boxes ...
 6.6.103: CALC A Spring with Mass. We usually ignore the kinetic energy of th...
 6.6.104: CALC An airplane in flight is subject to an air resistance force pr...
Solutions for Chapter 6: Sears and Zemansky's University Physics with Modern Physics 13th Edition
Full solutions for Sears and Zemansky's University Physics with Modern Physics  13th Edition
ISBN: 9780321696861
Solutions for Chapter 6
Get Full SolutionsThis expansive textbook survival guide covers the following chapters and their solutions. Sears and Zemansky's University Physics with Modern Physics was written by and is associated to the ISBN: 9780321696861. This textbook survival guide was created for the textbook: Sears and Zemansky's University Physics with Modern Physics, edition: 13. Chapter 6 includes 232 full stepbystep solutions. Since 232 problems in chapter 6 have been answered, more than 616481 students have viewed full stepbystep solutions from this chapter.

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average (indicated by a bar over a symbol—e.g., v¯ is average velocity)

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