Name Date ______________________ Period _____ Unit 9: Electrostatics Worksheet In this worksheet if you see any charge or draw any charge, only excess charge is shown. If there are no plus (+) or minus (-) symbols then the object or area has an equal number of each (is neutral). 1. The balloon has been rubbed on Sue D. Nym’s head and then hung from the ceiling. A negatively charged rod is brought close to the balloon and the rod repels the balloon. a) What charge does the balloon have? b) What is this method of charging called? c) How do you know this? d) What was the type of charge on Sue’s hair immediately after the balloon was rubbed on it? e) 2. Explain how her hair gained this charge? The positively charged metal globe X on the end of the insulating handle is brought over and touched to neutral globe Y, another metal globe on an insulated post. a) On the diagram to the right, sketch the charges on the two globes after they are touched and moved apart. X X Y Y b) What is this method of charging called? 3. This time the globe X is brought near, but does not touch globe Y. While globe X is held near, a finger is touched to the far side of globe Y. The finger is then taken away, and then globe X is pulled back. a) On the diagram to the left, sketch the charges on globe Y before it is touched with the finger. b) On the diagram to the right, sketch the charge on the two globes after they are separated. (They are far enough apart not to affect each other.) X c) Y What is this method of charging called? What steps are involved? X Y 4. Two initially uncharged metal spheres are in contact with each other and resting on insulating posts as shown below. A negatively charged balloon is brought near, and while it held nearby, sphere B is moved to the right by sliding the base sideways. The balloon is then removed. a) On the diagram to the left, sketch the charges on the two globes before they are separated. b) On the diagram to the right, sketch the charge on the two globes after they are separated. (They are far enough apart not to affect each other.) A c) 5. A B What charge do A and B have after separation? B d) By what method were the spheres charged? We have four electroscopes with an unknown charge state. We take a plastic rod and rub it with plastic such that it becomes positively charged. The rod is brought in contact with electroscope 2. Now the electroscopes are brought toward each other. 1, 3, and 4 are all attracted to 2. 1 and 3 have no effect on each other. 1 and 3 are both attracted to 4. What are the charge states of 1, 2, 3, and 4? Explain your reasoning. 1 2 3 4 6. A negatively charged rod is bought close to a neutral electroscope and the electroscope is attracted to the rod, touches the rod and is then repelled by the rod. Why was the electroscope attracted to the rod? What charge does the electroscope have before it touches the rod? After it touches the rod? ------------ ----------- 7. The base of an electrophorus, a piece of styrofoam is rubbed with rabbit fur. The styrofoam is then lifted and brought close to a leaf electroscope. The electroscope leaves spread apart. a) What does this prove about the styrofoam? What charge does it have? b) The top plate of the electrophorus (made of aluminum with an insulated handle) is placed on the electrophorus base. It is then lifted up and touched to the leaf electroscope. It has no effect on the electroscope. What does this tell you about the charge on the top of the electroscope? c) The top is set back on the base and touched with a finger. Then the top is picked up and touched to an electroscope after which it is repelled by the electroscope. After that a positive rod is brought close to the electroscope and it is repelled. What charge did the top of the electrophorus have when picked up off the styrofoam? How do you know? What moved, and from what to what when the finger touched the edge of the plate? +++++++++++++ d) You should now know the charge of each object in each part. Draw in the areas of excess charge on each object below. The fur in part A The styrofoam in part A The electroscope in part A (while the styrofoam base is held close) The base and top of the electrophorus in part B The top of the electrophorus in part c (after lifted off the base)