100 likes | 267 Views
A. 12pF. When fully charged which of these three capacitors holds the largest quantity of charge, Q? 2) B 3) C 4) all are the same. B. 8pF. C. 6pF. Which of these three capacitors has the highest voltage across it? 1) A 2) B 3) C 4) all are the same. + -. 24 volts. A.
E N D
A 12pF When fully charged which of these three capacitors holds the largest quantity of charge, Q? 2)B3)C4)allare the same B 8pF C 6pF Which of these three capacitors has the highest voltage across it? 1)A 2)B 3)C 4)all are the same + - 24 volts
A B C 12pF 8pF 6pF + - 24 volts When fully charged which of these three capacitors holds the largest quantity of charge, Q? 1)A2)B3)C 4)allare the same Which of these three capacitors has the highest voltage across it? 1)A 2)B 3)C 4)all are the same
A 12pF Three identical capacitors CA=CB=CC=12pF are connected in parallel. What is the total effective capacitance of the combination? B 12pF C 12pF 1)36pF 2)12pF 3)4pF 4)3pF 5)1/4 pF 6)1/12 pF
A B C 12pF 12pF 12pF Three identical capacitors CA=CB=CC=12pF are connected in series. What is the total effective capacitance of the combination? 1)36pF 2)12pF 3)4pF 4)3pF 5)1/4 pF 6)1/12 pF
The three capacitors are identical with CA=CB=CC=C. What is the equivalent capacitance,Ceq, of the combination shown below? 1) Ceq= (3/2)C 2) Ceq= (2/3)C 3) Ceq= 3C 4) Ceq= (1/3)C o C Ceq C C o
The three capacitors are identical with CA=CB=CC=C. When connected across a battery and fully charged, which capacitor will hold the most charge? 1) QA> QB> QC 2) QA> QB= QC 3) QB> QA= QC 4) QB= QC> QC 5) QA= QB= QC o CB CC CA o
The three capacitors are identical with CA=CB=CC=C. What is the equivalent capacitance,Ceq, of the combination shown below? 1) Ceq= (3/2)C 2) Ceq= (2/3)C 3) Ceq= 3C 4) Ceq= (1/3)C o C Ceq C C o
The three capacitors are identical with CA=CB=CC=C. When connected across a battery and fully charged, which capacitor will hold the most charge? 1) QA> QB> QC 2) QA> QB= QC 3) QB> QA= QC 4) QB= QC> QC 5) QA= QB= QC o CA Ceq CC CB o
Inserting a dielectric material between two charged parallel conducting plates, originally separated by air and now disconnected from the battery, will (1) Increase the charge on the plates. (2) Increase the capacitance of the plates. (3) Increase the voltage across the plates. (4) None of the above.
Answers to the preceding slides 1)A 4)all are the same 4)allare the same 3)C 1)36pF 3)4pF 1) Ceq= (3/2)C 2) QA> QB= QC 2) Ceq= (2/3)C 2) QA> QB= QC (2) Increase the capacitance of the plates.