Set the multi meter in voltage mode, (anywhere between the highest and lowest range). touch the circuit with the red probe and the black probe at two points separated by some distance. If the reading is positive then the current is flowing from the point where you touched with the red probe towards the point at which is the black probe. If the reading is negative then the current is flowing from the point touched by the black probe towards the point touched by the red probe.
I'm
getting conflicting information on how to solve this. How do you
determine which direction current would be flowing, and how do you
determine V in each loop; add or subtract? The IR is positive if
you're tracing with the flow and negative if you're tracing against
it, correct?
4 2 T- 5 V 2 2 4 V 6 3 2 12 3 V Figure 28.16 Use Kirchhoff's solve for the curre laws to
1. How is the multimeter connected to the circuit when measuring current? a In parallel. b It doesn’t matter. c In series. d It depends on the multimeter.
Question 1: multimeter sampling when measuring voltage from a function generator A. How often do you think the meter samples? B. What do you thinking the steps are for the meter to take a sample, convert it into numerical measurement and display it on the screen?
you are given a multimeter a stopwatch a power supply, a resistor and a capacitor. you do not have access to a capacitance meter. using this equipment, how can you determine the capacitance value of the capacitor? what measurement will contribute the most uncertainty?
A multimeter is connected to a resistor in each of the three pictures below (A,B,C). For which of these picture (A, B, or C) is the multimeter set up to measure resistance? How about voltage? How about current? How do you know? 26.7 26T
Question 1 (1 point) A multimeter is connected to a resistor in each of the three pictures below (A,B,C). For which of these picture (A, B, or C) is the multimeter set up to measure resistance? How about voltage? How about current? How do you know? 26.7
A multimeter in an RL circuit records an rms current of 0.700 A and a 65.0-Hz rms generator voltage of 108 V. A wattmeter shows that the average power delivered to the resistor is 14.0 W. (a) Determine the impedance in the circuit. (b) Determine the resistance, R. (c) Determine the inductance, L.
How Do I stop overload VAC from showing on the multimeter. the
lab is supposed to look like the other photo on top.
Design1- Multisim - IDesign1 Eile Edit View Place MCU Simulate Transfer Iools Qptions Window Help Jelx In-Use List Design Toolbox XMM3 XMM4 E De esign Design XMM2 Q Agent XMM1 Multimeter-XMM4 Multimeter-XMM3 Q Agiest 30.018 mA 599.963 mA T1 Set. Vs R1 Set... 120Vrms 60HZ 100 20:1 Agilent multimeter-XMM2 gilent multimeter-XMM1 Agilent 14tttr Agilent igit altit 34401A...
What is the current 12 (mA)? Multimeter 2000 Multimeter-XM 12 5 V 5.002 mA VA А LRS 1560 I ~ +Vs 167 Set. R1 w Set... 1.5kO + V, - R4 w 1ko +VA- 12 13 14 -20 V + V2 R2 SRO +V, SRJ 3100 +Vs RS 90 I
how do you determine DNA/RNA purity, how do you determine DNA concentration, how do you determine protein concentration, and how do you determine cell density?).