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β 12y agoCurrent = charge/time = 10/5 = 2 amperes
Wiki User
β 12y ago(4 coulombs / 2 seconds) = 2 coulombs per second = 2 Amperes.
A flow of 7400 coulombs in 85 seconds represents a current of 87 amperes. One ampere is one coulomb per second, so divide 7400 by 85.
10/2 = 5 coulombs per second = 5 amperes.
Current = Charge / Time = 90 / 0.02 = 4500 Amperes
calulate the voltage of a battery that provides 20 joules of energy to every 5 coulombs of charge
The current is calculated by dividing the charge (6 coulombs) by the time (2 seconds). Therefore, the current is 3 amperes (6 coulombs / 2 seconds = 3 amperes).
(4 coulombs / 2 seconds) = 2 coulombs per second = 2 Amperes.
The charge transferred in 25 minutes by a current of 500 mA is 750 coulombs. Amperes is defined as coulombs per second, so 500 mA is 0.5 coulombs per second. 25 minutes is 1500 seconds, so the charge is 750 coulombs.
Charge flow can be calculated by multiplying the current (in amperes) by the time (in seconds) for which the current flows. The formula is Q = I * t, where Q is the charge flow in coulombs, I is the current in amperes, and t is the time in seconds.
A flow of 7400 coulombs in 85 seconds represents a current of 87 amperes. One ampere is one coulomb per second, so divide 7400 by 85.
To calculate the time it takes to deliver 30 coulombs of charge with a current of 10mA, you can use the formula: time = charge / current. Plugging in the values, you get time = 30 C / 0.01 A = 3000 seconds. Therefore, it would take a current of 10mA 3000 seconds to deliver 30 coulombs of charge.
To calculate the amperes when given coulombs, use the formula: Current (I) = Charge (Q) / Time (t). If the time is not specified, you can't determine the current from just the charge in coulombs.
Electric current (in amperes) is calculated by dividing the electrical charge (in coulombs) by the time taken (in seconds) for the charge to pass through a given point in a circuit. The formula is I = Q / t, where I is the current, Q is the charge, and t is the time.
To calculate the time it takes for 9 coulombs to pass a current of 3 amps, you can use the formula: time = charge / current. Plugging in the values, time = 9 coulombs / 3 amps = 3 seconds. So, it would take 3 seconds for 9 coulombs to pass a current of 3 amps.
10/2 = 5 coulombs per second = 5 amperes.
If you divide the charge by the time, you get the average current (in amperes).
To calculate the grams of gold plated, you first need to determine the total charge passed through the circuit. This requires multiplying the current (1.5 A) by the time (25 seconds), which gives 37.5 coulombs. Knowing the charge and the Faraday constant (96,485 coulombs), you can then convert coulombs to moles and moles to grams to find out the amount of gold plated.