7. a. The graph for the given data is as follows:
The graph shows the relation between Potential Difference and Current to be a polynomial of order 2 and a curve fitting of 99.77%.
7.b. There are very few deviations from the graph but none enough to be considered an anomaly.
7.c. The graph after the current of 0.7 A shows almost a linear growth suggesting resistance becomes constant.
Question 7 a) A The Circuit below was used to collect measurements of the current through...
Question 7 a) A The Circuit below was used to collect measurements of the current through and Potential difference across an unknown piece of material labelled as the 'Eureka Wire'. The table below shows the results of this experiment. Use the table below to plot a graph of Potential difference against current, with current on the X-axis. Use the Graph paper on the next page (8 marks) b) Use your graph to estimate the resistance of the 'eureka wire' between...
please, answer all the questions Question 5 a) A transformer has 500 turns on the primary and 1500 turns on the secondary. If the output voltage is 36 V what is the input voltage? What type of transformer is this? (3 marks) b) 100 kW is delivered to a town along power lines that have a total resistance of 0.4 0. Calculate the power loss if the electricity is delivered at a voltage of () 240 V and (ii) 24kV....
please, answer all questions Question 4 a) Two 8k resistors are connected as a potential divider with a supply p.d. of 20 mv. What is the current flowing and the p.d. across each resistor? (5 mark) b) The circuit shows four arrangements A, to D of three 2uF capacitors which arrangement has the smallest capacitance, the largest capacitance. (5 mark) Total 10 marks Space to answer Question 4 here А HAHE D HA Question 5 a) A transformer has 500...
For the circuit shown in the figure below, find the current through and the potential difference across each resistor. Place your results in the table for ease of reading. (Assume R1 = 27 ohm, R2 = 2 ohm, and V = 2 V.)
Question 1 a) Calculate the Effective Resistance of the circuit and total current of the network in figure 1 (5 marks) b) Calculate the Effective Resistance of the Network of Resistors in figure 2 (5 marks) Total 10 marks Space to answer Question 1 here + 9V R 90 92 SRZ 45 32 Rz 180 32 Figure 1: 10 10 102 102 А 320 3202 320 19 B Figure 2 Question 2 a) Explain the assumptions made in the definition...
10:30 AM @ 24% Edit "AM 11) For the circuit shown below find the current through and circuit shown below find the current through and the potential difference across each resistor. Place your results in a table for ease reading. (16 points) 392 M 392 1662 w 32 RI R2 12V - 1678 14 3480 24 M 12V 4 480 KO V=1.R Regio - Ex Boy - 24 Roger het tort tor Rooi = 22
PHYSICS II: 4) For the circuit shown below, find: a) the equivalent resistance; b) the current through the battery; c) the potential difference across the 10 ohm resistor. 9 p /A we 100C 5) Two resistors with resistances of 12.0 2 and 6.0 are connected in parallel. An 8.0-12 resistor is then connected in series with this parallel combination. An ideal 12.0-V battery is then connected across the series- parallel combination. A) Draw a diagram of this circuit. B) Find...
Question 1 In the circuit shown below, determine the magnitude and direction of current flow through each resistor using KVL and KCL. [5 points]. If point A is grounded, what is the potential at point B? [1 point] If a shorting wire is connected between A and B, what power is dissipated in the 5 12 resistor? [2 points] 223 5v 322 1.5V 322
Question 9 (1 point) Solve the circuit below by finding all of the current, resistance, and potential difference values and entering them into the table. (SGMXFB] R, = 60 11 = R2 = 60 12 = R = 120 V1 = V2 = V3 = VI = 60 V R1 = 122 R2 = 62 R3 = 6.2 RT = V = 60V W = = IT =
A resistor was connected to a variable voltage source and the current was measured for various voltages.The following results were obtained: Trial Voltage (V) Current (mA) 1 1 3.3 2 1.96 7.1 3 3.03 10.9 4 3.98 13.7 where V is the voltage difference across the resistor and I is the current travelling through the resistor at the same time. Calculate the resistance for each trial and the average of the resistances. Determine the uncertainty in the average resistance. Report...