7.5.2 worksheet - Digilent Learn site
... 1. In the space below, provide (from your pre-lab results) the time constant for the circuit shown in Figure 1 if R=200 and L = 1mH. Also provide your estimate steady state response of vR(t) if vIN is a step input with amplitude 5V. (3 pts) ...
... 1. In the space below, provide (from your pre-lab results) the time constant for the circuit shown in Figure 1 if R=200 and L = 1mH. Also provide your estimate steady state response of vR(t) if vIN is a step input with amplitude 5V. (3 pts) ...
Chapter 27
... difference between R’ and R increase, decrease, or remain the same? 42. In Fig. 27-50, a voltmeter of resistance RV = 300 Ω and an ammeter of resistance RA = 3.00 Ω are being used to measure a resistance R in a circuit that also contains a resistance R0 = 100 Ω and an ideal battery of emf E = 12.0 V ...
... difference between R’ and R increase, decrease, or remain the same? 42. In Fig. 27-50, a voltmeter of resistance RV = 300 Ω and an ammeter of resistance RA = 3.00 Ω are being used to measure a resistance R in a circuit that also contains a resistance R0 = 100 Ω and an ideal battery of emf E = 12.0 V ...
Laboratory Exercise 1
... Disconnect the battery from the circuit, and turn the pot fully CCW. Plug the USB cable from the Parallax box into the USB port of the PC. Run the program: Start Menu|Parallax|USB Oscilloscope| USB Oscilloscope 4.0.0 Click on the Title Screen to start the program. Connect Channel 1 probe to TP2. Con ...
... Disconnect the battery from the circuit, and turn the pot fully CCW. Plug the USB cable from the Parallax box into the USB port of the PC. Run the program: Start Menu|Parallax|USB Oscilloscope| USB Oscilloscope 4.0.0 Click on the Title Screen to start the program. Connect Channel 1 probe to TP2. Con ...
Project 4
... part number for that IC is 74LS47. The 74LS47 takes a 4-bit binary number as input. (Since we have only 3 bits, we will need to connect the 4th input to ground.). It also has a ripple blanking input (RBI) and a LED test (LT) inputs, both of which must be high (e.g. connected to Vcc) for the device t ...
... part number for that IC is 74LS47. The 74LS47 takes a 4-bit binary number as input. (Since we have only 3 bits, we will need to connect the 4th input to ground.). It also has a ripple blanking input (RBI) and a LED test (LT) inputs, both of which must be high (e.g. connected to Vcc) for the device t ...
CA 6292 - Chauvin Arnoux
... values, thanks to its 0.1 μΩ resolution and its accuracy of approximately 1% for measurement. The test current can be adjusted up to 200 A, as required. The C.A 6292 can also record up to 8,000 measurement results. ...
... values, thanks to its 0.1 μΩ resolution and its accuracy of approximately 1% for measurement. The test current can be adjusted up to 200 A, as required. The C.A 6292 can also record up to 8,000 measurement results. ...
An electric potential difference exists between
... in parallel have an ac voltage of 8.00 V. The main speaker resistance is 12.00 Ω, the remote speaker resistance is 6.00 Ω. Determine: (a) the equivalent resistance of the two speakers, (b) the total current supplied by the receiver, (c) the current in each speaker, (d) the power dissipated in each s ...
... in parallel have an ac voltage of 8.00 V. The main speaker resistance is 12.00 Ω, the remote speaker resistance is 6.00 Ω. Determine: (a) the equivalent resistance of the two speakers, (b) the total current supplied by the receiver, (c) the current in each speaker, (d) the power dissipated in each s ...
www.physicspaathshala.org
... connected to 100Va.c. source, the current reduces to 0·5 A. Why is the current reduced in the latter case? Calculate the value of the reactance of the inductor? 12. When a series combination of inductance and resistance are connected with a 10 V, 50 Hz a.c. source, a current of 1A flows in the circu ...
... connected to 100Va.c. source, the current reduces to 0·5 A. Why is the current reduced in the latter case? Calculate the value of the reactance of the inductor? 12. When a series combination of inductance and resistance are connected with a 10 V, 50 Hz a.c. source, a current of 1A flows in the circu ...
Manual - Major Tech
... measurements. For measurement situations requiring that a range be manually selected, perform the following: 1. Press the RANGE button. The “AUTO” display indicator will turn ...
... measurements. For measurement situations requiring that a range be manually selected, perform the following: 1. Press the RANGE button. The “AUTO” display indicator will turn ...
GRE Review: Lab Methods
... detection, counting statistics, interaction of charged particles with matter, lasers and optical interferometers, dimensional analysis, fundamental applications of probability and statistics” After looking through the practice tests, the key things to review are how to calculate errors, how lasers w ...
... detection, counting statistics, interaction of charged particles with matter, lasers and optical interferometers, dimensional analysis, fundamental applications of probability and statistics” After looking through the practice tests, the key things to review are how to calculate errors, how lasers w ...
Watt`s Law Practice Worksheet Key
... 3. Assume you have a flashlight that uses four 1.5 volt batteries in series (total of 6 volts) and a bulb that is rated at 2 watts. How much current will the bulb draw from the circuit? __0.33 amperes 4. You have a 1500 watt electric space heater that operates on standard household voltage of 120 VA ...
... 3. Assume you have a flashlight that uses four 1.5 volt batteries in series (total of 6 volts) and a bulb that is rated at 2 watts. How much current will the bulb draw from the circuit? __0.33 amperes 4. You have a 1500 watt electric space heater that operates on standard household voltage of 120 VA ...
IOP32D Surge Diverter
... To order, select product code from the table and specify country of application. Product Code ...
... To order, select product code from the table and specify country of application. Product Code ...
ANALOG PAGE 68-71.p65
... right price, and all the functions are realised with individual electronic components for each function listed in Figure 1. This architecture is the most expensive and is often used in 3-phase applications. In terms of performance, the ADCs are the critical elements and the DSP is chosen to handle t ...
... right price, and all the functions are realised with individual electronic components for each function listed in Figure 1. This architecture is the most expensive and is often used in 3-phase applications. In terms of performance, the ADCs are the critical elements and the DSP is chosen to handle t ...
How you should be thinking about electric circuits
... If the voltage is maintained between two points in a ...
... If the voltage is maintained between two points in a ...
Multimeter
.JPG?width=300)
A multimeter or a multitester, also known as a VOM (Volt-Ohm meter or Volt-Ohm-milliammeter ), is an electronic measuring instrument that combines several measurement functions in one unit. A typical multimeter would include basic features such as the ability to measure voltage, current, and resistance. Analog multimeters use a microammeter whose pointer moves over a scale calibrated for all the different measurements that can be made. Digital multimeters (DMM, DVOM) display the measured value in numerals, and may also display a bar of a length proportional to the quantity being measured. Digital multimeters are now far more common but analog multimeters are still preferable in some cases, for example when monitoring a rapidly varying value. A multimeter can be a hand-held device useful for basic fault finding and field service work, or a bench instrument which can measure to a very high degree of accuracy. They can be used to troubleshoot electrical problems in a wide array of industrial and household devices such as electronic equipment, motor controls, domestic appliances, power supplies, and wiring systems.Multimeters are available in a wide range of features and prices. Cheap multimeters can cost less than US$10, while laboratory-grade models with certified calibration can cost more than US$5,000.