I have 5 - 330 ohm resistor
5 -
220 ohm
5 -
2200 ohm
5 -
3300 ohm
5 -
16000 ohm
How
can I make the circuit?
I
need the calculation
Node 2 11.604 V Node 4 1.188 V Node 5 oV Node 1 Node 3 7.604 V 6.324 V AVー AV= - 18 V 1-0.0012A Name: Network: 1702 Bag ID:
You have two batteries, both with an emf of 1.5V. The internal resistance of the first battery is 0.5 Ohm, and the internal resistance of the second battery is 1 Ohm What will be the current through an external resistor with a resistance of 2 Ohm, if the two batteries are connected in series? What will be the current through an external resistor with a resistance of 2 Ohm, if the two batteries are connected in parallel? What will be...
You have two batteries, both with an emf of 1.5V. The internal resistance of the first battery is 0.5 Ohm, and the internal resistance of the second battery is 1 Ohm. What will be the current through an external resistor with a resistance of 2 Ohm, if the two batteries are connected in series? What will be the current through an external resistor with a resistance of 2 Ohm, if the two batteries are connected in parallel? What will be...
Prelab (due at beginning of lab period, one from each group member) M 220 mH 510 mH 3300 220 123 470 mH L3 330 mH R31100 4700 Figure 1: RL Network 33002 2200 68 F R, 1100 R. 4700 c, 75 F 24V Figure 2: RC Network 1. Construct a thevenin equivalent circuit for the elements to the left of points a and b in Figures 1 and 2 above, determining the equivalent resistance and thevenin voltage. 2. Combine the...
In an RC circuit, the total resistance is 1 k ohm and the battery voltage is 3V. If the time constant is measured to be one micro second, calculate the capacitance. A resistor and the capacitor are used to control the timing in the RC circuit of a heart pacemaker. To design a pacemaker that can double the heart rate when the patient is exercising, does the capacitor need to discharge faster or slower? So, for same capacitor, should the...
Draw a circuit with a resistance(R=V/I) of 1500 ohms, but you only have access to 1 resistor of 1000 ohm. Hint: use exactly 3 resistors. Use wires, switches, battery, voltmeter, and ammeter, regular resistors of 10 ohms. You can change your resistor value. Do this by using equivalent resistance equations for both series and parallel.
4. If I have a bag of a large number of 1 ohm resistors, how many would I need to connect to have a total resistance of 2.5 ohms, and how would they be connected? (Bonus point if you find more than one solution.)
Part II: Parallel circuits Reg V(Ohm Law) paralei (a) cators) 47 0101 228 12 22 47 PART 2 ANALYSIS Examine the results of Part II. What is the relationship between the three voltage readings: Vi, V2, and VTOT? 1. 2. Using the measurements you have made above and your knowledge of Ohm's law te the equivalent resistance (R) of the circuit for each of the three parallel circuits you tested 3. Study the equivalent resistance readings for the parallel circuits....
This is one original diagram for you to see what kind of circuit
we have:
Draw out the circuit diagrams for these
tasks.
Each task is a separate task and you will need to construct a
specific circuit for each task, as well as indicate where the
measurement is taking place.
1. Specific Voltage
From a 5V power supply, have a drop of 3.3V over a specific
resistor accurate to the 0.1V mark. (Please point out which
specific resistor if...
6. (5 points) A 12 Volt battery with a 3 Ohm internal resistance is connected to a circuit as shown below. W a.) What percent of the power being expended by the battery is dissipated over the 24 resistor (i.e. being by the 24 resistor)? (note that you are going to have to figure out several things along the way to 24 12 arrive at the answer) 492 -W 512 PW 12V 1222 b.) If you measure the voltage between...