Voltmeter connect in parallel with the circuit setting on voltmeter highest range first then to lower range.
Ohmmeter we need to use the ohmmeter meter setting connect across the resistor
Be certain the circuit is de-energized and discharged before connecting an ohmmeter.Do not apply power to a circuit while measuring resistance.When you are finished using an ohmmeter, switch it to the OFF position if one is provided and remove the leads from the meter.Always adjust the ohmmeter for 0 (or ∞ in shunt ohmmeter) after you change ranges before making the resistance measurement.
Deer hunters are familiar with the hart, or red deer.
Always put a capital letter on a proper noun
Ah, what a lovely question. The opposite of hard using a "br" word would be "soft." Just like how delicate brush strokes can create beautiful, gentle landscapes on our canvas. Remember, there are no mistakes, just happy little accidents.
Yes. You can translate Farsi to English and/or English to Farsi using google translater. http://www.google.com/language_tools?hl=en It's new on google, so sometimes there are mistakes...
A multimeter, also called a VOM, is an ohmmeter, ammeter, and voltmeter combined in one case. A function knob can be turned to select the type of measurement to be made, such as volts, amps, or ohms. The multimeter's test lead connections to the circuit will depend on whether you are using it as a voltmeter, an ammeter, or an ohmmeter.
The main rule to be followed when using an ohmmeter is to have the circuit under test de energized from the power source.
Turn off the supply before using the ohmmeter,it will damaged your ohmmeter when supply is present.
Using an ohmmeter, Wheatstone bridge, etc.
By using a voltmeter.
Be certain the circuit is de-energized and discharged before connecting an ohmmeter.Do not apply power to a circuit while measuring resistance.When you are finished using an ohmmeter, switch it to the OFF position if one is provided and remove the leads from the meter.Always adjust the ohmmeter for 0 (or ∞ in shunt ohmmeter) after you change ranges before making the resistance measurement.
There are several ways of doing this, but it depends on what information you have to start with. One way is to find the impedance, using a voltmeter and an ammeter (impedance will be the product of the two readings), and the resistance using an ohmmeter (or, better still, a Wheatstone Bridge) and, then, use the equation:cos (phase angle) = resistance / impedance
It is measured using a Voltmeter
Use a voltmeter with a high input impedance and measure at the source the voltage.
Any standard voltmeter but however the voltage to be measured must be stepped down to a safe value using a Potential transformer.
the lowest
Using an ohmmeter on its lowest scale, the base-emitter junction of a transistor looks like a diode. If it conducts with the base positive, the transistor is an NPN. If it conducts with the emitter positive, the transistor is a PNP. (Of course, you need to know which probe of your ohmmeter is the positive one. DON'T assume anything. Some meters swing one way, some the other way. The only way to know for sure is to check it with another meter, used as a voltmeter.)