okay, where's the "given waveform"?
Form factor is (RMS value)/(average absolute value) For sine wave form factor = (1/sqrt(2))/(2/pi) = about 1.11
Form factor of an alternating current waveform (signal) is the ratio of the RMS (Root Mean Square) value to the Absolute Average Value (also referred to as the Practical Average Value) of the waveform.In the case of a sinusoidal wave ie., an analogue wave, the form factor is approximately 1.11.In the case of a square wave ie., a digital wave, the RMS and the average values are equal; therefore, the form factor is 1.
1.414 is the approximate value of the square root of 2. The ratio of 1.414 is useful in many different places. Two examples are the conversion from RMS value to peak value for a sinusoidal save form, and the calculation of power factor when the phase angle is 45 degrees.
ICS 204
Assuming that the rectifier will be followed by a filter capacitor, the p.i.v. should be at least twice the peak of the applied a.c. (The capacitor will charge to the peak of the applied a.c. On the next half cycle of the input, the peak of that cycle will be of the opposite sign to that of the stored voltage on the capacitor, so the two add - giving twice the peak.)
A: add a capacitor and proper bias
you plug in the value of y and solve for x by algebra For example, standard form is y = mx + b Say y = 3x + 4 and you are given y = 7 then 7 = 3x + 4 3 = 3x 1 = x x = 1
either find the answer or write it in number form
The given value is that of an integer, not a fraction.
-1.5
-43
In mathematics, the absolute value of a given number is the positive form of the number, for example, if the answer to a problem turns out to be plus or minus 3, then the absolute value is 3.
you have to use F.O.I.L method to simplify it.
registered dealer under vat are those who has file form C with prescribed procedure , form , fee etc which is submitted to the registrar and the registrar has given the form D so who has the form D given by registrar is registered dealer .
To Find Average Deviation 1. Find the average value of your measurements. 2. Find the difference between your first value and the average value. This is called the deviation. 3. Take the absolute value of this deviation. 4. Repeat steps 2 and 3 for your other values. 5. Find the average of the deviations. This is the average deviation The average deviation is an estimate of how far off the actual values are from the average value, assuming that your measuring device is accurate. You can use this as the estimated error. Sometimes it is given as a number (numerical form) or as a percentage. To Find Percent Error 1. Divide the average deviation by the average value. 2. Multiply this value by 100. 3. Add the % symbol.
The value of y will depend on the given straight line equation in the form of y = mx+b