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A dc milli ammeter has internal resistance Rm 45 deflection current Im 1.5 mA and a...
2) For a galvonometer, the value of the current that gives a full scale deflection is 3 mA and the internal resistance of the coil in the galvanometer is 90 2. a) Find the shunt resistance Rs which allows this galvonometer to be used as a 5 A ammeter. b) Draw the circuit of the constructed 5 A ammeter and show the corresponding currents and resistance values in the circuit. c) When the scale shows 0.75 mA, what will be...
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
1. Given that a certain galvanometer has an internal resistance of 254 N and can handle a maximum current of 250 A, design an ammeter capable of reading at full- scale deflection (the maximum current without burning up the meter) 10 A and a voltmeter capable of reading at full-scale deflection 10 V. Assume that the space available in the meter for the shunt (for the ammeter) or limiting (for the voltmeter) resistor is no more than 5 mm in...
Given a moving coil type measuring unit with: Internal resistance R= 1 kq; current for end-of- scale deflection in=0.01 mA. 41 [V] -411 [V] Using this unit, design a DC V-meter to show a half-scale deflection under the periodic input voltage given in the figure and having an internal resistance of R=10 kn/v.
A circuit you're building needs an ammeter that goes from 0 mA to a full-scale reading of 40.0 mA. Unfortunately, the only ammeter in the storeroom goes from 0 μAto a full-scale reading of only 500 μA. Fortunately, you can make this ammeter work by putting it in a measuring circuit, as shown in the figure. This lets acertain fraction of the current pass through the meter; knowing this value, you can deduce the total current. Assume that the ammeter...
Given that a certain galvanometer has an internal resistance of 254 Ω and can handle a maximum current of 250 μA, design an ammeter capable of reading at full-scale deflection (the maximum current without burning up the meter) 10 A and a voltmeter capable of reading at full-scale deflection 10 V. Assume that the space available in the meter for the shunt (for the ammeter) or limiting (for the voltmeter) resistor is no more than 5 mm in length and...
1. Given that a certain galvanometer has an internal resistance of 254 1 and can handle a maximum current of 250 HA, design an ammeter capable of reading at full- scale deflection (the maximum current without burning up the meter) 10 A and a voltmeter capable of reading at full-scale deflection 10 V. Assume that the space available in the meter for the shunt (for the ammeter) or limiting (for the voltmeter) resistor is no more than 5 mm in...
1. Given that a certain galvanometer has an internal resistance of 254 12 and can handle a maximum current of 250 UA, design an ammeter capable of reading at full- scale deflection (the maximum current without burning up the meter) 10 A and a voltmeter capable of reading at full-scale deflection 10 V. Assume that the space available in the meter for the shunt (for the ammeter) or limiting (for the voltmeter) resistor is no more than 5 mm in...
A DC current I passes through a resistor R (=100 Ohm). The LE in the resistance is 1%. The 0- 10 A ammeter has 1% of full-scale accuracy. The ammeter reads 8A. Calculate the LE of the DC power measurement in the resistor
(5) Using the d'Arsonval ammeter shown, design an ammeter to read a full-scale current reading of 50 mA. R 50 mV A 2 mA Ammeter Use the meter in the circuit below to determine the current io in the 120 Ω resistor 210 Ω 280 Ω lo 30 mA(t) 200 Ω 120 Ω 18052