draw a schematic containing a galvanometer and a resistor, configured to make a voltmeter (just draw the voltmeter itself NOT hooked into a circuit.
draw a schematic containing a galvanometer and a resistor, configured to make a voltmeter (just draw...
draw a schematic containing a galvanometer and a resistor, configured to make a voltmeter (just draw the voltmeter itself NOT hooked into a circuit.
Consider a circuit containing a 24 V battery and a 15 Ω resistor. We want to mesure the current in the circuit with an ammeter of internal resistance 3 mΩ and the voltage drop across the resistor with a voltmeter having an internal resistance of 100 kΩ. a. How should be the ammeter connected (series or parallel)? b. How should be the voltmeter connected (series or parallel)? c. Draw a schematic of the circuit d. Calculate the current across the...
A galvanometer with a coil resistance of 16.3 is used with a shunt resistor to make a nondigital ammeter that has an equivalent resistance of 0.817 . The current in the shunt resistor is 3.97 mA when the galvanometer reads full scale. Find the full-scale current of the galvanometer.
Part II. Conversion of a Galvanometer into a Voltmeter a) Let's now switch to the circuit in Figure 2. Set it up and have it checked by your instructor before closing it. For Rause the theostat (from the greck p owitam resistance of 2000 Calculate the resistance Raneeded to make your 0-1.0 mA galvanometer work as a Qur voltmeter (neglect Ro) and insert it in the circuit 3U RM" .3k-2 b) Use your voltmeter to measure the voltage of 1...
Draw the following schematic circuit diagram and label them accordingly: (a) Draw the schematic for a circuit in which a 10 V battery, a 100 resistor, and a 220 resistor are all in series with one another. Determine the voltage across each resistor and the current owing through each resistor. (b) Draw the schematic for a circuit in which a 10 V battery, a 100 resistor, and a 220 resistor are all in parallel with one another. Determine the voltage...
Part Five: Circuit Analysis 5 is now closed. Draw the schematic en find the voltage across each of the following devices. 6. T he switch in the circuit from question for the circuit, and a) 15 Ω resistor b) 202 resistor c) 5 Ω resistor d) the switch e) the battery f With the switch closed, how much current flows through the batte th Through the 5 Ω resistor? Use your answers from above to color-code the circuit, g) 5....
A 1.46 MΩ voltmeter is placed in parallel with an 80.0 kΩ resistor in a circuit. (a) Draw a circuit diagram of the connection. (Submit a file with a maximum size of 1 MB.) This answer has not been graded yet. (b) What is the resistance of the combination? (Enter your answer in ohms to at least 3 significant figures.) 74074 Correct: Your answer is correct. Ω c) If the voltage across the combination is kept the same as it...
1. Say we had the following function: F =!(!A*B*!C+A*!B*C*!D) a. Draw a schematic that matches the structure of this equation b. Using deMorgan's Theorem, draw the schematic for a circuit that will have the exact same behavior but does not use any OR/NOR gates. c. Let's say we had access to the true and complement versions of our four inputs, and that we couldn't use any additional inverters, just AND and OR gates. Draw a third schematic that implements the...
What is the Kirchhoff's junction rule equation for this junction? A 10-V-emf battery is connected in series with the following: a 2-mu F capacitor, a 2-Ohm resistor, an ammeter, and a switch, initially open; a voltmeter is connected in parallel across the capacitor. After the switch has been closed for a relatively long period (several seconds, say), what are the current and capacitor voltage readings, respectively? A resistor, inductor, battery, and switch are all hooked up in series. Draw a...
10. Draw below a schematic of an inverting op amp circuit operating from a single +voltage DC supply, that has a gain from input to output Av = 5 WITHOUT DISTORTION, with a 1kΩ load resistor. The input will be a 500mVRMS sinewave. BE SURE TO SHOW ALL POWER AND GROUND connections and POWER VOLTAGE LEVELS. Use Esupply = +20V, and assume 1 V headrooms.