WebAssign Printed Access Card for Serway/Vuille's College Physics, 11th Edition, Multi-Term

11th Edition

ISBN: 9781337763486

Author: Raymond A. Serway, Chris Vuille

Publisher: Cengage Learning

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Magnetic Field Of Coaxial Cable

The word coaxial means same axis. So for a long straight cable to be coaxial, it must have concentric cylindrical shaped conductor around it. Coaxial cable (popularly called ‘coax’) has various applications ranging from current conductors to radiofrequen…

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Chapter 20, Problem 58AP

A spacecraft is in 4 circular orbit of radius equal to 3.0 × 10⁴ km around a 2.0 × 10³⁰ kg pulsar. The magnetic field of the pulsar at that radial distance is 1.0 × 10² T directed perpendicular to the velocity of the spacecraft. The spacecraft is 0.20 km long with a radius of 0.040 km and moves counter-clockwise in the xy-plane around the pulsar. (a) What is the speed of the spacecraft? (b) If the magnetic field points in the positive z-direction, is the emf induced from the back to the front of the spacecraft or from side to side? (c) Compute the induced emf. (d) Describe the hazards for astronauts inside any spacecraft moving in the vicinity of a pulsar.

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Chapter 20, Problem 57AP

Chapter 20, Problem 59AP

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Part C Find the height yi from which the rock was launched. Express your answer in meters to three significant figures. Learning Goal: To practice Problem-Solving Strategy 4.1 for projectile motion problems. A rock thrown with speed 12.0 m/s and launch angle 30.0 ∘ (above the horizontal) travels a horizontal distance of d = 19.0 m before hitting the ground. From what height was the rock thrown? Use the value g = 9.800 m/s2 for the free-fall acceleration. PROBLEM-SOLVING STRATEGY 4.1 Projectile motion problems MODEL: Is it reasonable to ignore air resistance? If so, use the projectile motion model. VISUALIZE: Establish a coordinate system with the x-axis horizontal and the y-axis vertical. Define symbols and identify what the problem is trying to find. For a launch at angle θ, the initial velocity components are vix=v0cosθ and viy=v0sinθ. SOLVE: The acceleration is known: ax=0 and ay=−g. Thus, the problem becomes one of…

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Chapter 20 Solutions

WebAssign Printed Access Card for Serway/Vuille's College Physics, 11th Edition, Multi-Term

Ch. 20.2 - Prob. 20.1QQ Ch. 20.2 - A bar magnet is falling toward the center of a...Ch. 20.2 - Two circular loops are side by side and lie in the...Ch. 20.3 - A horizontal metal bar oriented east-west drops...Ch. 20.3 - You intend to move a rectangular loop of wire into...Ch. 20.6 - Prob. 20.6QQ Ch. 20 - A bar magnet is held stationary while a circular...Ch. 20 - Does dropping a magnet down a copper tube produce...Ch. 20 - Figure CQ20.3 shows three views of a circular loop...Ch. 20 - A loop of wire is placed in a uniform magnetic...

Ch. 20 - As the conducting bar in Figure CQ20.5 moves to...Ch. 20 - How is electrical energy produced in dams? (That...Ch. 20 - Figure CQ20.7 shows a slidewire generator with...Ch. 20 - As the bar in Figure CQ20.5 moves perpendicular to...Ch. 20 - Eddy current are induced currents set up in a...Ch. 20 - The switch S in Figure 20.27 is closed at t = 0...Ch. 20 - A piece of aluminum is dropped vertically downward...Ch. 20 - When the switch in Figure CQ20.12a is closed, a...Ch. 20 - Prob. 13CQ Ch. 20 - A magneto is used to cause the spark in a spark...Ch. 20 - A uniform magnetic field of magnitude 0.50 T is...Ch. 20 - Find the flux of Earths magnetic field of...Ch. 20 - Prob. 3P Ch. 20 - A long, straight wire carrying a current of 2.00 A...Ch. 20 - Prob. 5P Ch. 20 - A magnetic field of magnitude 0.300 T is oriented...Ch. 20 - A cube of edge length = 2.5 cm is positioned as...Ch. 20 - Transcranial magnetic stimulation (TMS) is a...Ch. 20 - Three loops of wire move near a long straight wire...Ch. 20 - The flexible loop in Figure P20.10 has a radius of...Ch. 20 - Inductive charging is used to wirelessly charge...Ch. 20 - Medical devices implanted inside the body are...Ch. 20 - A technician wearing a circular metal band on his...Ch. 20 - In Figure P20.14, what is the direction of the...Ch. 20 - Prob. 15P Ch. 20 - Find the direction of the current in the resistor...Ch. 20 - A circular loop of wire lies below a long wire...Ch. 20 - A square, single-turn wire loop = 1.00 cm on a...Ch. 20 - Prob. 19P Ch. 20 - A circular coil enclosing an area of 100 cm2 is...Ch. 20 - To monitor the breathing of a hospital patient, a...Ch. 20 - An N-turn circular wire coil of radius r lies in...Ch. 20 - A truck is carrying a steel beam of length 15.0 m...Ch. 20 - Prob. 24P Ch. 20 - Prob. 25P Ch. 20 - In one of NASAs space tether experiments, a...Ch. 20 - Prob. 27P Ch. 20 - An astronaut is connected to her spacecraft by a...Ch. 20 - Prob. 29P Ch. 20 - Prob. 30P Ch. 20 - Prob. 31P Ch. 20 - Prob. 32P Ch. 20 - Considerable scientific work is currently under...Ch. 20 - A flat coil enclosing an area of 0.10 m2 is...Ch. 20 - A generator connected to the wheel or hub of a...Ch. 20 - A motor has coils with a resistance of 30.0 and...Ch. 20 - A coil of 10.0 turns is in the shape of an eclipse...Ch. 20 - Prob. 38P Ch. 20 - Prob. 39P Ch. 20 - Prob. 40P Ch. 20 - Prob. 41P Ch. 20 - An emf of 24.0 mV is induced in a 500-turn coil...Ch. 20 - Prob. 43P Ch. 20 - Prob. 44P Ch. 20 - Prob. 45P Ch. 20 - Prob. 46P Ch. 20 - Prob. 47P Ch. 20 - Prob. 48P Ch. 20 - Prob. 49P Ch. 20 - Prob. 50P Ch. 20 - Prob. 51P Ch. 20 - Prob. 52P Ch. 20 - Additional Problems Two circular loop of wire...Ch. 20 - Prob. 54AP Ch. 20 - Prob. 55AP Ch. 20 - Prob. 56AP Ch. 20 - An 820-turn wire coil of resistance 24.0 is...Ch. 20 - A spacecraft is in 4 circular orbit of radius...Ch. 20 - Prob. 59AP Ch. 20 - Prob. 60AP Ch. 20 - Prob. 61AP Ch. 20 - Prob. 62AP Ch. 20 - The magnetic field shown in Figure P20.63 has a...Ch. 20 - Prob. 64AP Ch. 20 - In Figure P20.65 the rolling axle of length 1.50 m...Ch. 20 - An N-turn square coil with side and resistance R...Ch. 20 - A conducting rectangular loop of mass M,...

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Solution Summary: The author explains the gravityal force exerted on the ship by the pulsar supplies the centripetal acceleration needed to hold it in the circular orbit.

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