No, they are different things. This would be like calculating an apple into an orange.
The resistance R in ohms (Ω) is equal to the voltage V in volts (V) divided by the current I in amps (A)
P = Power (Watts) E = Electrical Potential (Volts) I = Current (Amps) A = Amperage or Amps V = Volts R = Resistance (Ohms) C = Capacitance (Farads) F = Farad Hz = Hertz (cycles per second) kHz = kilo Hertz (1000 Hertz) MHz = Megahertz (1,000,000 Hertz) GHz - Gigahertz (1,000,000,000 Hertz) There are many more but this is a start
Ohm's law: Voltage is resistance times current. 80 ohms time 0.5 amperes = 40 volts.
5.6 isn't the stand off ratio calcutaled by ===== Rb1/(Rb1+Rb2)
3000 ohms are 3 kiloohms.
That is possibly the input impedance of a loudspeaker - not an impedance of an amplifier.
ohms law.
One Hertz is equal to one cycle/second.
The reactance of an inductor is calculated as Xl = 2πfL, where Xl is the inductive reactance, f is the frequency, and L is the inductance. Substituting the given values of 100 microhenries for inductance and 400 Hz for frequency into the formula gives Xl = 2 * π * 400 * 100 * 10^-6 which equals approximately 251.3 ohms.
volts, amperes, ohms, hertz, watts
Positive
Ohm's Law requires you know two of three parameters to calculate the third. Volts = Amps x Ohms You need to know current flowing through resistance to calculate voltage drop.
hertz is the amount of repeating times in a second. you would have to record it and count repetitions, or frequency.
The normal calculations for watts are as follows.amps x volts = wattsvolts2 / ohms = wattsamps2 x ohms = wattsScroll down to the Related links and look at "Watts, Volts, Amperes, and Ohms".
If wired in parallel then 4 ohms.
Ohm's laws says it will be 1.5 vdc divided by 330 ohms.
The resistance R in ohms (Ω) is equal to the voltage V in volts (V) divided by the current I in amps (A)