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You are given a circuit with a switch, resistor, capacitor and battery all in series. The capacitor is initially discharged and begins charging at t=0.0000s, when the switch is closed. The capacitance is C=0.0100F, the resistance is R=80.0000Ohms, and the battery EMF-15.0000 Volts. At what time is the voltage across the capacitor half the maximum? (in seconds) Your Answer: Answer A uniform magnetic field points toward the right. The direction for a positive moving charge is 1.0000, where "1" means...
GR, I. I OD PB E R3 Iz R2 The circuit shown has a battery with EMF=6.00 Volts. Each of the resistors is 1.00 Ohms. What is the effective resistance of the circuit? 6.00 Volts 2.00 Amperes 1.50 Ohms 2.00 Volts 3.00 Ohms 4.00 Amperes
We have a u-shaped conducting track on its side with the open part of the "U" the left A vertical 0.75 meter conducting bar is to slide left or right on the track There is magnetic field 0.06 Tesla directed out of the page. You are moving the bar to the right with a constant speed 400 meters per second Calculate the EMF induced in the circuit when the bar is 1.5 meters from the right of the sideways "U"...
1) Find the total resistance in the circuit. 52 min quim 10211 102 M W 1022 2) An electron is moving to the right in a magnetic field that points upward. What is the direction of the magnetic force? 3) A typical MRI solenoid has a length of about 1 meter and a diameter of about 1 meter. A typical field inside such a solenoid is about 1 T. How many turns of wire must the solenoid have to produce...
Can I please get help with these six questions? Thank you so much! In the circuit below, the switch is closed after it had been open a long time. If the emf, resistances, and capacitance are e = 24 V, R1 = 6.0 2, R2 = 2.0 2, and C = 10.0 uf, what is the charge stored on the capacitor a long time after the switch is closed? R w to R: You have a flexible loop of metal...
11) For the circuit shown, R1= R3 = R9 = R11= 102.0 Ohms, the rest of the resistors are 204.0 Ohms. a) Without doing any simplification (or combination) identify the number of pairs of resistors (that is 2 resistors) that are in series. b) Without doing any simplification (or combination) identify the number of pairs of resistors (that is 2 resistors) that are in parallel. c) Find R12 the equivalent resistance of resistors R1, and R2. d) Find R123 the...
Bob places a neutrally charged conducting ball next to a large, charged plate. The conducting ball is weakly attracted to the plate. What is the net charge on the plate? 1. a) Positive b) Negative c) Neutral (i.e., zero charge) d) Either positive or negative, but it is impossible to tell which A +1 C charge is at the origin, and a second +1 C charge is at position (x,y)-(2 m, 0). How much work is required to move the...
Clearly state your solution path. Partial credit will only be given for clear steps. Units must be provided or points will be subtracted. Clearly label the end result, use double lines to underscore or box the final result. Note the equation sheet is on the back. (10 pt) An electron enters a region between two capacitor plates with equal and opposite charges. The plates are L=0.1 m by 0.05 m and the gap between the plates is h=0.001 m. During...
1. Figure G: The ideal battery has an emf of 14 V. What is the current (A) in R a) 0.200 D0.250 b) 1.00 g) 0.100 c)0.500 h)0.235 2. Figure C shows, in cross section, a spherical conducting shell that surrounds a particle of charge -2e. The shell d) 0.667 i) 1.23 e) 0.750 has a net charge of -6e. What is the magnitude (N/C) of the electric field at point P, at distance2.00 m from the j)0.820 center of...