Solutions Manual For Physics for Scientists & Engineers with Modern Physics (Volume 2) 5e (Global Edition) By Douglas C. Giancoli

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Solutions Manual For Physics for Scientists & Engineers with Modern Physics (Volume 2) 5e (Global Edition) By Douglas C. Giancoli-1. Suspend a plastic ruler by a thread and then rub it with a cloth. A... s shown in Fig. 21–2a, the ruler is negatively charged. Now bring the charged comb close to the ruler. If the ruler is repelled by the comb, then the comb is negatively charged. If the ruler is attracted by the comb, then the comb is positively charged. 2. The shirt or blouse becomes charged as a result of being tossed about in the dryer and rubbing against the dryer sides and other clothes. When you put on the charged object (shirt), it causes charge separation within the molecules of your skin (see Fig. 21–9), which results in attraction between the shirt and your skin. 3. Fog or rain droplets tend to form around ions because water is a polar molecule, with a positive region and a negative region. The charge centers on the water molecule will be attracted to the ions or electrons, since opposite charges attract. 4. See also Fig. 21–9 in the text. The negatively charged electrons in the paper are attracted to the positively charged rod and move towards it within their molecules. The attraction occurs because the negative charges in the paper are closer to the positive rod than are the positive charges in the paper, and therefore the attraction between the unlike charges is greater than the repulsion between the like charges. 5. A plastic ruler that has been rubbed with a cloth is charged. When brought near small pieces of paper, it will cause separation of charge (polarization) in the bits of paper, which will cause the paper to be attracted to the ruler. A small amount of charge is able to create enough electric force to be stronger than gravity. Thus the paper can be lifted. On a humid day this is more difficult because the water molecules in the air are polar. Those polar water molecules will be attracted to the ruler and to the separated charge on the bits of paper, partially neutralizing the charges and thus reducing the attraction. 6. The net charge on a conductor is the sum of all of the positive and negative charges in the conductor. If a neutral conductor has extra electrons added to it, then the net charge is negative. If a neutral conductor has electrons removed from it, then the net charge is positive. If a neutral conductor has the same amount of positive and negative charge, then the net charge is zero. The “free charges” in a conductor are electrons that can move about freely within the material because they are only loosely bound to their atoms. The “free electrons” are also referred to as “conduction electrons.” A conductor may have a zero net charge but still have substantial free charges. Chapter 21 Electric Charge and Electric Field 7. Most of the electrons are strongly bound to nuclei in the metal ions. Only a few electrons per atom (usually one or two) are free to move about throughout the metal. These are called the “conduction electrons.” The rest are bound more tightly to the nucleus and are not free to move. Furthermore, in the cases shown in Figs. 21–7 and 21–8, not all of the conduction electrons will move. In Fig. 21–7, electrons will move until the attractive force on the remaining conduction electrons due to the incoming charged rod is balanced by the repulsive force from electrons that have already gathered at the left end of the neutral rod. In Fig. 21–8, conduction electrons will be repelled by the incoming rod and will leave the stationary rod through the ground connection until the repulsive force on the remaining conduction electrons due to the incoming charged rod is balanced by the attractive force from the net positive charge on the stationary rod. 8. The electroscope leaves are connected together at the top. That connection can be modeled as a tension force. The horizontal component of this tension force balances the electric force of repulsion. The vertical component of the tension force balances the weight of the leaves. 9. The balloon has been charged. The excess charge on the balloon is able to polarize the water molecules in the stream of water, similar to Fig. 21–9. This polarization results in a net attraction of the water towards the balloon, so the water stream curves towards the balloon. 10. (a) When the leaves are charged by induction, no additional charge is added to the leaves. If the charged rod is near the top of the electroscope it repels charge onto the leaves causing them to separate as in Fig. 21–11(a). When the rod is removed the charge returns to its initial equilibrium position and the leaves come back together. (b) When the leaves are charged by conduction, positive charge is placed onto the electroscope from the rod causing the leaves to separate. When the rod is removed, the charge remains on the electroscope and the leaves remain separated. If not all of the excess charge leaves the rod, then when the rod is removed, the leaves might come back together slightly from their maximum deflection. (c) Yes. The electroscope has a negative charge on the top sphere and on the leaves. Therefore the electroscope has a total net negative charge, so it must have been charged by conduction. 11. Coulomb’s law and Newton’s law are very similar in form. When expressed in SI units, the magnitude of the constant in Newton’s law is very small, while the magnitude of the constant in Coulomb’s law is quite large. Newton’s law says the gravitational force is proportional to the product of the two masses, while Coulomb’s law says the electrical force is proportional to the product of the two charges. Newton’s law only produces attractive forces, since there is only one kind of gravitational mass. Coulomb’s law produces both attractive and repulsive forces, since there are two kinds of electrical charge. 12. The gravitational force between everyday objects on the surface of the Earth is extremely small. (Recall the value of G: 6.67 1011 N m 2 kg2 .) Consider two objects sitting on the floor near each other. They are attracted to each other, but the maximum force of static friction for each is much greater than the gravitational force each experiences from the other, and so they don’t move. Even in an absolutely frictionless environment, the acceleration resulting from the gravitational force would be so small that it would not be noticeable in a short time frame. We are aware of the gravitational force between objects if at least one of them is very massive, as in the case of the Earth and satellites or the Earth and you. [Show More]

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