E= 1.5 Voltmeter reading= 1.45
ammeter reading= .94 x 10^-3 A. Find Rx
E= 1.5 Voltmeter reading= 1.45 ammeter reading= .94 x 10^-3 A. Find Rx Figure 2 4
Problem 5 - variation of problem 30.64: Using the circuit shown in Figure 4, a) Find the reading in each ammeter and voltmeter just after switch S is closed b) Find the reading in each ammeter and voltmeter after S has been closed a very long time. c) At what time does the power in the inductor equal the power in the 75 Ω resistor? 100.0Ω 100.0Ω 15.0mH 50.0V 50.0Ω D 75.0Ω
Problem 5 - variation of problem 30.64: Using...
The figure shows a circuit in which the ideal ammeter has a reading of 1,80 x 10-3 A and the ideal voltmeter has a reading of 9.20 V. What are the following? (Assume R1 = 1.35-0.) R w w R (a) the unknown resistance, R2 511 X Your response is off by a multiple of ten, ko (b) the emf of the battery V (c) the potential difference across the R, resistor V Need Help? Read It Master It
When switch S in the figure (Figure 1)is open, the voltmeter V
of the battery reads 3.13 V . When the switch is closed, the
voltmeter reading drops to 2.99 V , and the ammeter A reads 1.70 A
. Assume that the two meters are ideal, so they don't affect the
circuit.1) Find the emf.2) Find the internal resistance of the battery.3) Find the circuit resistance R.
For the circuit shown in the figure below, find the following: Reading of the [ideal] ammeter in Amps, Voltage between the two 80 ohm resistors (relative to ground) Current through the 10 V battery
What is the reading X from the ammeter? What would be the reading Y if we replaced the ammeter by a volt-meter? R A-meter Given Variables: Vs: 4 V R:2 ohm b:3 A/A Determine the following: X (A) : Y (V):
Questions #4-5: consider the circuit below: 10012 W- E = 10 V 4. A real ammeter with an internal resistance of 1.0 2 is connected to the circuit shown. When the ammeter is properly connected, the power delivered by the battery: a) Decreases b) Increases c) Stays the same d) Depends on how the ammeter is connected 5. A real voltmeter with an internal resistance of 1.0 kN is connected to the circuit shown. When the voltmeter is properly connected,...
i need help with problem 5
X resistances in the circuit can be neglected. The switch is closed at time t-0 X X 1 X E- What is the acceleration of the bar as a function of a) time? b) What is the velocity of the bar as a function of time? Figure 3-for Problem 29.60 Chapter 30 Problems: Problem 5 - variation of problem 30.64: Using the circuit shown in Figure 4, a) Find the reading in each ammeter...
*** Problem 3 When switch S in Figure 1 is open, the voltmeter V reads 3.08 V. When the switch is closed, the voltmeter reading drops to 2.97 V, and the ammeter reads 1.65 A. (Note: r is internal resistance of the battery.) fr Figure 1: Assume that the two meters are ideal so they don't affect the current in the circuit. a What is the EMF, V, produced by the battery? b) What is the liternal cesistance, r, of...
1. A certain voltmeter has scale (0-10) V and accuracy 1%. Voltmeter indicates 4.52 V. What are the limits for actual voltage? [Ans.(4.52 +/-0.1) V] 2. An ammeter with the scale (0 - 100) mA and accuracy 2% indicates currents 42 mA and 70 mA. Find the possible percentage error for each reading. [Ans. +/- 4.76%, +/- 2.86%). 3. A voltmeter has two scale (0 - 10) V and (0 - 100) V with 100 divisions for each scale. Define...
2. Find the local maximums) of: f(x) = S-2017-x*)(++3)+-2)* 4+7)94-1)dt