ENGR201-2024 lab2-(Part 1 of 2) - Node Voltages and Resistive Sensors

A galvanometer with a internal resistance of 400 and a shunt resistor of value 'Rsh' is connected in series with a 100 resistor. A constant voltage VO' is applied aoross the oircuit, and the galvanometer deflects a certain amount. The shunt resistor is then removed, and replaced in series with the 100 resistor. With the same voltage 'VO', the galvanometer deflection is unchanged. Calculate the value 'Rsh' of the shunt resistor.

The circuit displayed below is comprised of resistors, a battery,  capacitors and a single pole double throwswitch (SPDT). When switch is in the position of A, the battery is connected to the circuit. When the switch is in the position of B, the battery is then replaced with a wire. In the beginning, the switch is open, and all capacitors are firstly uncharged. The switch is then flipped in the position of A, so the battery is in the circuit. Then, 30.0 seconds after the switch is then submitted to the position of A, what will the potential difference be beyond C3?

Consider a PV Module with 24 solar PV cells with the Size of each 15cm x 10cm are connected in series. Choose the correct statement for the above. (Assume necessary data) a. The output voltage is 12 V, the output power is 540W b. The output voltage is 12 V, the output power is 54W c. The output voltage is 12 V, the output power is 5.4W d. The output voltage is 24 V, the output power is 2.25W

Electrical Engineering I need the answer as soon as possible 2y what is Cele and cladding ?

Question 11 Not yet answered Marked out of 1.50 P Rlag question 11. Consider a PV Module with 4 solar PV cells with the Size of each 10cm x 10cm are connected in Parallel. Choose the correct statement for the above PV Module. (Assume necessary data) a. The output voltage is 2 V, the output power is 12W b.The output voltage is 0.5 V the output poweris 1W EThe outout voltageis 12V, the output power is CW 4:Theoutbutvotages.0 he outpu Question 12 Harqueseion

An AC ammeter is connected in series with the primary winding of T1. What is the expected current reading? An AC ammeter is connected in series with the secondary winding of T1. What is the expected current reading? An AC ammeter is connected in series with R1. What is the expected current reading? NOTE: Idc for HW rectifier = 0.318 * Ipeak = 0.45 * Irms Describe/Explain briefly the purpose/use of the array (series-parallel) connection of the rectifier diodes in the given circuit.

Question 4 (a) A PMMC movement with a coil resistance of 25 0 requires 0.8 mA for full scale deflection. Specify: a. The coil voltage required for full scale deflection. b. The shunt resistance required for a 0-1 A ammeter. c. The multiplier resistance required for a 0-10V voltmeter. d. Draw both instruments.

Consider a PV Module with 4 solar PV cells with the Size of each 10cm x 10cm are connected in Parallel. Choose the correct statement for the above PV Module. (Assume necessary data)      a. The output voltage is 0.5 V, the output power is 12W b. The output voltage is 2 V, the output power is 12W  c. The output voltage is 12 V, the output power is 6W  d. The output voltage is 0.5 V, the output power is 6W

2. A bank of nickel-cadmium cells is used as the emergency lighting supply for a hospital. There are 100 cells connected in series and each has an A-hr rating of 120 A-hr. The bank has to be replaced, and the manufacturer is no longer supplying nickel-cadmium cells. It is decided to replace the cells with lead-acid cells. How many lead-acid cells will be required if each has an A-hr rating of 60 A-hr, and how should they be connected?

PRELIMINARY EXERCISE Important Note: You are required to do this exercise BEFORE the lab session. a. Explain what is loading effect in measurement. b. Draw the connection using the potentionmeter shown in Figure(i) as a voltage divider. c. The resistance value in Figure (i) are R₁ = 5 k2, R₂-5 k2 and R, -5 k2 respectively. Calculate the error of Moving Coil Meter if it has internal resistance 10 k2 and voltage supply (Vs) is 10V. m Figure (i) d. Discuss the error in voltage measurement between low and high resistance circuit. e. Briefly discuss the difference between a logarithnm and linear track. f. Explain the input and output impedance of buffer circuit. What are the functions of buffer in instrumentation and measurement.

Create a circuit diagram using the instructions given then find its Requivalent.

Summarize on how testing is carried out on isolators and circuit breakers of high voltage system. High voltage engineering

Differential equation of the electrical system in Figure 2. HE R1 C R, Figure 2.

Write abstract & Itroduction for simple motion detector using 9v battery 555 timer sensor and alarm Abstarct What the project is? How we Built The circuit? How The circuit Can Be Built In Other ways Introduction- What is Motion Detectior What We tried to accomplish with that project

Please solve ellaborately and include the untis in every step, show diagram and write your solutions clearly and readable if your solution is in written form. Your work will be appreaciated much. Thank You.

Question 4 How many patterning (photolithography) steps would be required to achieve the device in relation to the figure below. Side view Top view Bottom view Electrodes Sensing material INN Substrate Heater Sensing material Electrodes Heater

Can someone please explain these two schematics in a short paragraph? Do they both function as voltage regulators?

A PMMC instrument has internal resistance of 0.77 ko and gives full scale deflection for 35 mA. The required resistance value of multiplier resistors for employing the meter as a multi range voltmeter for voltage range 79 V will be ohms. 102562.40 O 224.94 1487.14 O -326.96

What is the relevance of safety factors in circuit design? Explain in a paragraph with 8 sentences.

How can you convert a galvanometer into an ammeter and a voltmeter? A PMMC galvanometer of 69 resistance reads up to 60 mA. Determine the value of the resistance (i) when connected in parallel to enable the instrument to read up to 1.20 A and (ii) when connected in series to enable it to read 12 V.

3 resistors are expected to be 10 ohm according to theory but actual values are dlfferent this is what I observed. The question I posted as a photo. Also the tolerance percentage for this resistors are 5%, if my tolerance is not specified +/- 5% what might be the reasons for the disprepancy? ..

Good day. This is Fundamentals of Electronics Circuits subject. Please do help. No need for solutions

Possible solution as soon as possible, please, and the drawing is in detail

There is an RL circuit with a switch 2-volt battery, a .15 H inductor, and a 60-ohm resistor. How long after the switch is closed would there be 10 milliamps in the circuit?

A linear resistance potentiometer is 50 mm long and is uniformly wound with wire having a resistance of 10000 ohm. Under normal conditions, the slider is at the centre of the potentiometer. Find the linear displacement when the resistance of the potentiometer as measured by a Wheatstone bridge for two cases is (1) 3520 ohm (2) 8250 ohm .

Consider a PV Module with 24 solar PV cells with the Size of each 15cm x 10cm are connected in series. Choose the correct statement for the above PV Module. (Assume necessary data) a. The output power is 2.25W and the output current is 0.09A b. The output power is 540W and the output current is 45A c. The output power is 54W and the output current is 2.25A d. The output power is 54W and the output current is 4.5A

Fundamentals of electrical circuit

!.With the aid of a diagram explain bourdon gauge and how it works !!. Explain the principle of operation of the electrical resistance strain gauge

PMMC type meter has a full scale deflection of 10 mA. The resistance of the coil is 30 ohm So,   (1) Value of shunt for ammeter of 50 A range and   (2) Find the value of series resistance required for the range up to 500 V.