500K is 500 000 µ Farad so it's ½ a Farad
When the terminals of a capacitor are connected together, the capacitor will discharge, returning to a zero potential state. Capacitors resist voltage change, meaning that if the capacitor is in a circuit that has zero voltage potential, the capacitor will eventually achieve zero potential. If the capacitor is in a circuit that has a 5 volt potential, the capacitor will seek and attempt to maintain that 5 volt potential (provided that the capacitor is rated at 5 volts or more). In an AC circuit, the capacitor will tend to smooth out the sin wave of the current, resisting change in both directions. In a DC power supply circuit, a capacitor will tend to reduce the voltage "ripple", and if the circuit is designed properly, will provide a smooth DC voltage. Shorting the terminals of a capacitor is effectively what often happens in many circuits; it's not a problem.
If there are only two contacts they are there to allow the capacitor to be connected into a circuit. If this is not a "just for fun" nonsense question, please describe the actual capacitor clearly and it may then be possible to give an answer. Please state: * the capacitance value (it is usually printed on the body of the capacitor) * the working voltage (if it is printed on the body of the capacitor) * the type of body (metal, plastic, etc) * the maker's name (if you know it - it may be shown on the body) * exactly how many contacts there are and where each contact is positioned
There are many type's of capacitors they widely range in price like i use a 35p capacitor in school electronics and they can go to over £5-$6.75 so 1st of all find out the name of your capacitor and simply google it
No, a capacitor is a device that resists the change in electrical potential. It will take and hold a charge based on the value of the capacitor. It's most commonly used to "smooth" direct current or to pass a signal through a wire while passing very little current. There are some interesting circuits produced using capacitors, especially since the capacitors have so many unique properties.
Many, but a near guaruntee would be any power supply. Electrolytic capacitors are the ones that look like batteries.
either 2.5 or 5.0 farads someware in that range is good
1000
A Farad is the electrical unit of capacitance. Many commonly used capacitors (also known as condensors) are measured in micro-Farads (μF). A micro-Farad is one millionth of a Farad. To convert from micro-Farads to Farads, divide the micro-Farad value by one million. 2 micro-farads = 0.000002 Farads.
500k written out is 500,000 There are 5 zeroes in 500,000
500k
Scosche fm transmitters are used in most am/fm radios and stereos as well as many i-homes and other stereo systems. Car audio systems are included in this. And they're also found in many mp3players and i-pods.
If a resistor is connected in series with the capacitor forming an RC circuit, the capacitor will charge up gradually through the resistor until the voltage across the capacitor reaches that of the supply voltage. The time called the transient response, required for this to occur is equivalent to about5 time constantsor5T. This transient response timeT, is measured in terms ofτ= R x C, in seconds, whereRis the value of the resistor in ohms andCis the value of the capacitor in Farads. This then forms the basis of an RC charging circuit were5Tcan also be thought of as"5 x RC".
Half a million
There are many different 'run' capacitors on motors. It depends on the motor make and use. You need to consult your manual or local electric motor shop.See related links below for good information on how capacitors effect motor starting.
Zero watts can be installed in 1000 micro farads. Watts are the product of amperage times volts. Micro farads is a value used in talking about capacitance.
420 micro farad=1 kvar
there is 500k football player in the world