The Physics of Everyday Phenomena
8th Edition
ISBN: 9780073513904
Author: W. Thomas Griffith, Juliet Brosing Professor
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 12, Problem 11CQ
When a metal ball is charged by induction using a negatively charged plastic rod, what is the sign on the charge acquired by the ball? Explain.
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The Physics of Everyday Phenomena
Ch. 12 - When two different materials are rubbed together,...Ch. 12 - Two pith balls are both charged by contact with a...Ch. 12 - When a glass rod is rubbed by a nylon cloth, which...Ch. 12 - Two pith balls are charged by touching one to a...Ch. 12 - Do the two metal-foil leaves of an electroscope...Ch. 12 - If you charge an electroscope with a plastic rod...Ch. 12 - When you comb your hair with a plastic comb, what...Ch. 12 - Describe how Benjamin Franklins single-fluid model...Ch. 12 - If you touch the metal ball of a charged...Ch. 12 - If you touch the ball of a charged electroscope...
Ch. 12 - When a metal ball is charged by induction using a...Ch. 12 - If, when charging by induction, you remove the...Ch. 12 - Will bits of paper be attracted to a charged rod...Ch. 12 - Why are pith balls initially attracted to a...Ch. 12 - Are electrostatic precipitators (see everyday...Ch. 12 - Can the pollutant carbon dioxide be readily...Ch. 12 - Can scrubbers (see everyday phenomenon box 12.1)...Ch. 12 - Is the concept of torque involved in the operation...Ch. 12 - If you had several identical metal balls mounted...Ch. 12 - If the distance between two charged objects is...Ch. 12 - If two charges are both doubled in magnitude...Ch. 12 - Can both the electrostatic force and the...Ch. 12 - Two charges, of equal magnitude but opposite sign,...Ch. 12 - Is it possible for an electric field to exist at...Ch. 12 - If we change the negative charge in the diagram...Ch. 12 - Three equal positive charges are located at the...Ch. 12 - Is the electric field produced by a single...Ch. 12 - If we move a positive charge toward a negative...Ch. 12 - Prob. 29CQCh. 12 - If a negative charge is moved in the same...Ch. 12 - Prob. 31CQCh. 12 - Is electric potential the same as electric...Ch. 12 - Prob. 33CQCh. 12 - Prob. 34CQCh. 12 - Would you be more likely to be struck by lightning...Ch. 12 - During a thunderstorm, why can a much greater flow...Ch. 12 - If in a typical thundercloud the bottom of the...Ch. 12 - Which is better during a thunderstorm: being in...Ch. 12 - Prob. 39CQCh. 12 - Prob. 1ECh. 12 - Prob. 2ECh. 12 - Prob. 3ECh. 12 - Prob. 4ECh. 12 - Prob. 5ECh. 12 - Prob. 6ECh. 12 - Prob. 7ECh. 12 - Prob. 8ECh. 12 - Prob. 9ECh. 12 - Prob. 10ECh. 12 - Prob. 11ECh. 12 - Prob. 12ECh. 12 - Prob. 13ECh. 12 - Prob. 14ECh. 12 - Prob. 15ECh. 12 - Prob. 16ECh. 12 - Prob. 1SPCh. 12 - Prob. 2SPCh. 12 - Prob. 3SPCh. 12 - Suppose that four equal positive charges are...Ch. 12 - Prob. 5SP
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- Rocket observations show that dust particles in Earths upper atmosphere are often electrically charged. (a) Find the distance separating two dust particles if each has a charge of +e and the Coulomb force between them has magnitude 1.00 1014 N. (b) Calculate the mass of one of the dust panicles if this Coulomb force would accelerate it at 4.50 108 m/s2. (In the upper atmosphere, effects from other nearby charges typically result in a small net force and acceleration.)arrow_forwardReview. From a large distance away, a particle of mass m1, and positive charge q1 is fired at speed in the positive x direction straight toward a second particle, originally stationary but free to move, with mass m2, and positive charge q2. Both particles are constrained to move only along the x axis. (a) At the instant of closest approach, both particles will be moving at the same velocity. Find this velocity, (b) Find the distance of closest approach. After the interaction, the particles will move far apart again. At this time, find the velocity of (c) the particle of mass m1, and (d) the particle of mass m2.arrow_forwardIntegrated Concepts Figure 18.57 shows an electron passing between two charged metal plates that create an 100 N/C vertical electric field perpendicular to the electron's original horizontal velocity. (These can be used to change the electron’s direction, such as in an oscilloscope.) The initial speed of the electron is 3.00106 m/s, and the horizontal distance it travels in the uniform field is 4.00 cm. (a) What is its vertical deflection? (b) What is the vertical component of its final velocity? (c) At what angle does it exit? Neglect any edge effects.arrow_forward
- Why do most objects tend to contain nearly equal numbers of positive and negative charges?arrow_forwardConstruct Your Own Problem Consider identical spherical conducting space ships in deep space where gravitational fields from other bodies are negligible compared to the gravitational attraction between the ships. Construct a problem in which you place identical excess charges on the space ships to exactly counter their gravitational attraction. Calculate the amount of excess charge needed. Examine whether that charge depends on the distance between the centers of the ships, the masses of the ships, or any other factors. Discuss whether this would be an easy, difficult, or even impossible thing to do in practice.arrow_forwardRocket observations show that dust particles in Earths upper atmosphere are often electrically charged. (a) Find the distance separating two dust particles if each has a charge of +e and the Coulomb force between them has magnitude 1.00 1014 N. (b) Calculate the mass of one of the dust panicles if this Coulomb force would accelerate it at 4.50 108 m/s2. (In the upper atmosphere, effects from other nearby charges typically result in a small net force and acceleration.)arrow_forward
- A simple and common technique for accelerating electrons is shown in Figure 18.55, where there is a uniform electric field between two plates. Electrons are released, usually from a hot filament, near the negative plate, and there is a small hole in the positive plate that allows the electrons to continue moving. (a) Calculate the acceleration of the electorn if the field strength is 2.50104 N/C. (b) Explain why the electron will not be pulled back to the positive plate once it moves through the hole.arrow_forwardIntegrated Concepts The practical limit to an electric field in air is about 3.001061 N/C. Above this strength, sparking takes place because air begins to ionize and charges flow, reducing the field, (a) Calculate the distance a free proton must travel in this field to reach 3,00% of the speed of light, starting from rest, (b) Is this practical in air, or must it occur in a vacuum?arrow_forward(a) Common transparent tape becomes charged when pulled from a dispenser. If one piece is placed above another, the repulsive force can be great enough to support the top piece’s weight. Assuming equal point charges (only an approximation), calculate the magnitude of the charge if electrostatic force is great enough to support the weight of a mg piece of tape held 1.00 cm above another. (b) Discuss whether the magnitude of this charge is consistent with what is typical of static electricity.arrow_forward
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