RMS power is Peak-To-Peak power divided by the square root of 2.
This definition, however, only holds true for a non-reactive, or resistive, load, with a power source that is truly sinusoidal.
P-P voltage = RMS voltage * 2 * sqrt (2)Here's an example: house voltage is 120VRMS, which is actually ~169 volts peak - neutral. double this will give peak to peak value.
In an AC circuit the voltage and current are n the form of a sine wave that goes between a maximum and minimum value 60 times a second. Measuring the difference between these values is a peak-to-peak measurement. Root Mean Square (RMS) computes an average (mean). To convert RMS to peak, multiply the RMS figure by 1.41. 1.41 is an approximation of the value of the square root of 2.
RMS is the root mean square value.(in alternating current only)
The peak of a waveform that is purely sinusoidal (no DC offset) will be RMS * sqrt(2). This is the peak to neutral value. If you are looking for peak to peak, multiply by 2.
A: Peak voltage is RMS multiplied by a factor of 1.41
That is an electric AC or audio output, where the voltage is measured in volts rms. Scroll down to related links and look for "dB conversion (decibel)". Look there in the middle at this headline: "RMS voltage, peak voltage and peak-to-peak voltage".
Assuming sine wave (it is different if not): Vp-p = 2.828 * Vrms
42.4W
Well, it depends. When you look at subwoofers, it will say RMS and peak. Now, let's talk about the "RMS" and "peak" on the subwoofer. The RMS is the real power. That's what were gonna be looking for. The RMS is the continuous power design for the subwoofer to operate. The peak is the maximum power the subwoofer can handle. Obviously, were not gonna be running the subwoofer with its peak power because that will decrease the life of your subwoofer. Running too much power or too little can damage your subwoofer. It's also important to run it by it's RMS rating. So, I don't know if that 450 watt is the RMS or peak. I'm assuming that it's the RMS. As long as you don't bridge it, it should be fine.
P-P voltage = RMS voltage * 2 * sqrt (2)Here's an example: house voltage is 120VRMS, which is actually ~169 volts peak - neutral. double this will give peak to peak value.
200 RMS 4 channel or 2 channel so u know add the rms of the speakers to find the amp rms needed
In an AC circuit the voltage and current are n the form of a sine wave that goes between a maximum and minimum value 60 times a second. Measuring the difference between these values is a peak-to-peak measurement. Root Mean Square (RMS) computes an average (mean). To convert RMS to peak, multiply the RMS figure by 1.41. 1.41 is an approximation of the value of the square root of 2.
Its 0.7 times peak-0 voltage, 106 mv RMS.
200 volts peak-to-peak is 100 volts peak, which is 70.7 volts rms (standing for root-mean-square) also called "effective". This 70.7 volts is the DC voltage with the same heating power as the peak-to-peak. The relationship is: rms (aka RMS) equals peak-to-peak divided by 2, then divided again by square-root of 2 (1.414). The division by 2 gets us from peak-to-peak to just peak. The next division takes us to rms. If you get an AC voltrage with no description, for exmple 120 volts AC, it is RMS (effective). The USA AC standard supply voltage is 120 (also called 117) volts RMS. The USA peak is 117 x 1.414 (square root of 2) = 165 volts peak, = 330 volts peak-to-peak.
No, the peak-to-peak voltage is 2sqrt(2) times as much as the rms for a pure sine-wave.
Peak voltage will be 1.414 times the RMS. Peak to Peak voltage, assuming no DC offset, will be 2 x 1.414 x the RMS value.
an amp with 300 or less rms wattage output and 1000 or less peak wattage output.