v
To control the amout of voltage to the processor
No, the power plug used in Japan is different from the one used in the United States. Japan typically uses a two-prong plug with a voltage of 100 volts, while the United States uses a three-prong plug with a voltage of 120 volts.
The letter E
It depends on what language you are talking about. In English, the letter X is least used for first names.
many used for law and biz
The potential energy voltage equation used to calculate the electrical potential energy stored in a system is given by the formula: Potential Energy Charge x Voltage.
If the wave is sinusoidal, the equation to determine voltage as a function of phase angle, is: V = V(p)sin(theta) where "V(p)" is peak voltage and "theta" is the phase angle. In the time domain, the equation for voltage is V = V(p)sin(wt) where 'w' was used for the Greek letter omega, which stands for frequency in radians per second and t is elapsed time from zero volts in seconds.
The work voltage equation is W qV, where W is the work done, q is the charge, and V is the voltage between the two points in the electric field.
Variable
The electric field voltage equation is E V/d, where E is the electric field strength, V is the voltage, and d is the distance between the charges. To calculate the electric field strength at a given point in space, you can use this equation by plugging in the values of voltage and distance to find the electric field strength.
Power (Joules) = the square root of the voltage squared divided by the resistance
a variable
The symbol is actually a letter. The original letter was an E which stood for Electromotive force. Now-days the E is substituted by the letter V which of course stands for voltage.
There is not a specific word that is used to bold a number in a math equation. Generally, a number or letter is not bold in a math equation, if a letter is of significance, it is normally capitalized.
The stopping potential equation is V hf - W, where V is the stopping potential, h is the Planck constant, f is the frequency of the incident light, and W is the work function of the metal surface. This equation is used to calculate the minimum voltage needed to stop photoelectrons emitted from a metal surface.
The equation to calculate electric power is P = IV, where P represents power in watts, I represents current in amperes, and V represents voltage in volts.
It can be any letter of any alphabet: Roman, Greek.