volts X amps
If you are defining electrical pressure as voltage then the answer to your question is yes. W = A x V.
Not enough information. Power = current x voltage. Since voltage can be anything, there is no way to calculate power. Time is irrelevant; though once you have the power, it can help you calculate energy (energy = power x time).
Multiplying 15 amps x 120 volts gives you 1800 watts, or the power consumed by the toaster
The power applied to a system is determined by two key factors: voltage (or electrical potential difference) and current (the flow of electric charge). Power can be calculated using the formula (P = V \times I), where (P) is power, (V) is voltage, and (I) is current. Thus, increasing either the voltage or the current will result in a higher power output within the system.
Voltage can be calculated using Ohm's Law:Voltage = Current (A) x Resistance (Ω)Voltage = 4A x 3Ω = 12 VoltsTherefore, the battery is a 12 Volts.The power dissipated is Voltage x CurrentPower = 4A x 12V = 48 Watts
Power in a circuit can be calculated by multiplying the voltage (V) across a component by the current (I) flowing through it. The formula for power is: P = V x I. It is measured in watts (W).
Yes, in an electrical system, more volts typically equate to more power. Power is calculated by multiplying voltage by current, so increasing the voltage can increase the power output of the system.
If you are defining electrical pressure as voltage then the answer to your question is yes. W = A x V.
Wattage or power rating of a product can be calculated by multiplying voltage rating and current rating. (Power = Voltage x Current). e.g. if device is working at 12V and 2A is the current rating. It is 24Watt. Since Voltage = Current x Resistance , for a resistive load power can also be calculated by Power = Current x Current x Resistance = I^2 x R = I square R
tao
I'm not sure there is a term other than "power"; V*A, or the vector sum of real and reactive power is equivalent to the power calculated by multiplying the voltage times the current, ignoring phase shift.AnswerThe product of voltage and current in an a.c. circuit is called 'apparent power', expressed in volt amperes, in order to distinguish it from 'true power' (in watts) and 'reactive power' (in reactive volt amperes).
volts X amps
The power rating of a bulb is calculated by multiplying the voltage across the bulb by the current passing through it. The formula is P = V * I, where P is power in watts, V is voltage in volts, and I is current in amperes. This calculation helps determine the amount of energy the bulb consumes during operation.
The total magnification of a compound microscope is calculated by multiplying the magnification power of the objective lens by the magnification power of the eyepiece. This determines how much larger an object will appear when viewed through the microscope.
Power is the product of voltage and current -in other words, mutliply the two together.
Magnifcation (: Haha was looking for an answer to this too!
Volt-amperage, or apparent power, is measured in volt-amperes (VA) and can be calculated by multiplying the voltage (in volts) by the current (in amperes) in an electrical circuit. To measure it, you can use a multimeter or a clamp meter to determine the voltage and current, and then apply the formula: VA = Voltage (V) × Current (A). For AC circuits, it's important to consider the power factor if calculating real power in watts.