Using Kirchoff's Voltage Rule
I1 Suppose that the current to be measured by an ammeter is so large that a galvanometer deflecte...
In the circuit shown below the ammeter consists of a galvanometer, with resistance Rg = 100 Ω, in parallel with a ‘shunt’ resistor, Rs = 2.00 Ω. The current, Ig, flowing through the galvanometer is 22.1 mA. The external circuit resistance is Rc = 20.0 Ω. If the EMF of the cell is 25.0 V, what is its internal resistance? EMF 25.0 V A )ammeter
A galvanometer of resistance 100 Ω gives full-scale deflection when its current is 1.0 mA. It is used to construct an ammeter whose full-scale reading is 100 A. If the shunt resistor consists of a piece of 10-gauge copper wire (diameter 2.59 mm), what should its length be
Part A A galvanometer having a resistance of 20.0 12 has a 1.00 N2 shunt resistance installed to convert it to an ammeter. It is then used to measure the current in a circuit consisting of a 15.0 12 resistor connected across the terminals of a 25.0 V battery having no appreciable internal resistance. What current does the ammeter measure? IVO AQ – 2 ? Submit Request Answer Part B What should be the true current in the circuit (that...
A circuit you're building needs an ammeter that goes from 0 mA to a full-scale reading of 60.0 mA . Unfortunately, the only ammeter in the storeroom goes from 0μA to a full-scale reading of only 500μA. Fortunately, you've just finished a physics class, and you realize that you can make this ammeter work by putting a resistor in parallel with it, as shown in the figure (Figure 1) . You've measured that the resistance of the ammeter is 90.0...
Could use some guidance and help on this Ammeter lab. Spe ifically on how to build the circuit on a bread board. 80% . 1:30 PM engrcir-1-7.pdf Ammeter Introduction Th c purpose of this lab is to design and build our own analog ammeter The D'Arsonval movement is the key component that allows us to build an analog voltmcter and ammeter. This movement contains a coil and magnet that sense current flowing through the movement. When current flows through the...
Hello, I only need part D and E. Show all work for those two parts. Note: the last question in part (e) asks for the I measured by ammeter, and actual I1 In the figure below, R1-6.50 Ω and R2-R,-R4-26.0 Ω" The battery has an emf of ε-120 V. R1 Ry a.) How much energy is dissipated by all four resistors in one minute? Inserting a measurement device into a circuit to figure out what it's doing will actually affect...
3R MC 12 Two identical solenoids are connected to each other so that they carry the same current, and are inserted through two loops in an electrical circuit, as shown left diagram. The solenoids are oriented such that when you loolk from one end, the currents are circulating in opposite directions, as showin in the second diagram. For a period of time, the current flowing through the solenoids is changing in a steady linear manner: It) ~ t. During this...
Pease answer questions 4 and 5! Thank you so much! 4. Connect the 2nd resistor in parallel with the 1st resistor and connect that combination to the battery. Measure the following: The current passing through the R1, I1 = ___0.0058____ A The current passing through the R2, I2 = ___0.0031____ A The current supplied by the battery, I = ___0.0092____ A Calculate I1 + I2 = ____________ A Is the following statement true? I = I1 +...
I only need help with the discussion there are many info that you do not need put I put just in case as well as my data table. please do it as soon as u can Meauements ODeit1 Check2 Meaurements Checi3 Ced Check5 Check6 Measurements Check7 heck8 4058 33 536 1502 1035 979 119478 041 1.0319|0.554972| 64261| 153|15542033681 995781 5266566 1578807 298h 1631 119 1209430016 079096812 0.418135246 0,00032665 011890:004668155728441 0293237 1.291809502 1.22833 1.28 1952 -1116 4281 140616885511984206317 3346 8162 0.78...
I need a help with my lab, I write all data that get. 355 SERIES SINUSOIDAL CIRCU CUITS neeseed 000 10 mH 10 kHz + R E-8V(Pp) V 1 kn Channel 2 Vert: 1 Vidiv Hor: 20 us/div. Channel 1 Vert: 1 Vidiv Hor: 20 us/div. FIG. 9.1 (b) After setting E to 8 V (p-p), determine the peak-to-peak voltage for Ve from chan- nel 2 and record in the top row of Table 9.1 Determine the phase angle 8,...