720 C
Here we are given 3.1 amperes of current and are asked to find the time it takes 10 coulombs of charge to pass a given point. First ask yourself how many coulombs are passing a given point in one second. If we have 3.1 amperes of current, we have 3.1 coulombs of charge passing any given point in one second. If it takes 1 second for 3.1 coulombs of charge to pass, how long will it take for 10C of charge to pass?
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.
Current in amperes is coulombs per second, so 2 coulombs per second is 2 amperes.
Amperage refers to the amount of electric current flowingthrough a circuit and is measured in amperes, or amps. Theamount of water flowing through a pipe can be compared toamperage. Amperage is abbreviated A or I.So the answer is= "A" or "I"Unit of Electric Current is= "A"I is the symbol for current (I traditionally means intensity). Current is measured in amperes (symbol = A).Letter ' I 'Other letters used as symbols for electricity or charge:Either 'e' or 'v' for potential difference (voltage)'Q' for charge (coulombs)'R' for resistance (ohms)'C' for capacitance (farads)'L' for inductance (Henrys).Unit of Electric Current is= "A"I is the symbol for current (I traditionally means intensity). Current is measured in amperes (symbol = A).Letter ' I 'Other letters used as symbols for electricity or charge:Either 'e' or 'v' for potential difference (voltage)'Q' for charge (coulombs)'R' for resistance (ohms)'C' for capacitance (farads)'L' for inductance (Henrys).
An electric current (symbol: I) is a very slow drift of charge carriers (electrons, in metallic conductors), and is measured in amperes (symbol: A). An ampere is defined in terms of the 'magnetic effect' of an electric current, that is the force of attraction or repulsion between two, parallel, conductors due to the interaction of their magnetic fields. An instrument used to measure electric current is called an 'ammeter'.
Current = charge/time = 10/5 = 2 amperes
If you divide the charge by the time, you get the average current (in amperes).
Current = Charge / Time = 90 / 0.02 = 4500 Amperes
The charge in this case is simply the current multiplied by the time.The charge in this case is simply the current multiplied by the time.The charge in this case is simply the current multiplied by the time.The charge in this case is simply the current multiplied by the time.
Use the equation I=q/t, where I is amperes, q is coulombs and t is time in seconds.First you have to convert the minutes to seconds, so 60 x 8= 480 seconds. ThenI=1100/480. I = 2.29 amperes.
5.8 C divided by 15 s = 0.3867 C/s = 0.3867 amperes
10/2 = 5 coulombs per second = 5 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.
(4 coulombs / 2 seconds) = 2 coulombs per second = 2 Amperes.
flow of charge is called current. but the direction of flow of current is always taken oppsite to the flow of charge.
Here we are given 3.1 amperes of current and are asked to find the time it takes 10 coulombs of charge to pass a given point. First ask yourself how many coulombs are passing a given point in one second. If we have 3.1 amperes of current, we have 3.1 coulombs of charge passing any given point in one second. If it takes 1 second for 3.1 coulombs of charge to pass, how long will it take for 10C of charge to pass?
No electrical charge is "generated"; the charges are simply moved around. To calculate the amount of charge that flows past a given spot, multiply the current by the time. Don't forget to convert the time to seconds first.