An electric eel develops a potential difference of 460 V, driving a current of 0.80 A for a 1.0 ms pulse.
Find the power of this pulse.
Find the total energy of this pulse.
Find the total charge that flows during the pulse.
P = Epsilon x Current
Power = Epsilon x I
also for part b Powere = Epsilon over delta t (change in time)
P = E/t
I have no idea what part c is .... I was thinking Q= It or maybe
power = delta qE/t
To find the power of the pulse, we can use the formula:
Power = Voltage * Current
Substituting the given values:
Power = 460 V * 0.80 A
Power = 368 W
Therefore, the power of this pulse is 368 watts.
To find the total energy of the pulse, we can use the formula:
Energy = Power * Time
Since the pulse duration is given in milliseconds, we need to convert it to seconds by dividing it by 1000:
Time = 1.0 ms / 1000
Time = 0.001 s
Substituting the values:
Energy = 368 W * 0.001 s
Energy = 0.368 J
Therefore, the total energy of this pulse is 0.368 joules.
To find the total charge that flows during the pulse, we can use the formula:
Charge = Current * Time
Substituting the values:
Charge = 0.80 A * 0.001 s
Charge = 0.0008 C
Therefore, the total charge that flows during the pulse is 0.0008 coulombs.
To find the power of the pulse, we can use the formula:
Power = Current x Voltage
Given:
Current (I) = 0.80 A
Voltage (V) = 460 V
Substituting these values into the formula, we get:
Power = 0.80 A x 460 V
Power = 368 W
Therefore, the power of the pulse is 368 W.
To find the total energy of the pulse, we can use the formula:
Energy = Power x Time
Given:
Power (P) = 368 W
Time (t) = 1.0 ms = 0.001 s
Substituting these values into the formula, we get:
Energy = 368 W x 0.001 s
Energy = 0.368 J
Therefore, the total energy of the pulse is 0.368 J.
To find the total charge that flows during the pulse, we can use the formula:
Charge = Current x Time
Given:
Current (I) = 0.80 A
Time (t) = 1.0 ms = 0.001 s
Substituting these values into the formula, we get:
Charge = 0.80 A x 0.001 s
Charge = 0.0008 C
Therefore, the total charge that flows during the pulse is 0.0008 C.