The current of 4 A is flowing in the conductor
for 1 min to 5 min. Find the amount of electric
charge that flows through the conductor.
Answers
Answer:
960C
Explanation:
Given that,
Given that,Current flowing in a conductor, I = 4 A
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 s
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I=
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= t
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq q is the electric charge
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq q is the electric chargeq=I\times tq=I×t
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq q is the electric chargeq=I\times tq=I×tq=4\ A\times 240\ sq=4 A×240 s
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq q is the electric chargeq=I\times tq=I×tq=4\ A\times 240\ sq=4 A×240 sq = 960 C
Given that,Current flowing in a conductor, I = 4 ATime for which the current flows is from 1 min to 5 min. Total time is 4 min or 240 sWe need to find the amount of electric charge that flows through the conductor. Electric current is given by the electric charge flowing per unit time. It is given by :I=\dfrac{q}{t}I= tq q is the electric chargeq=I\times tq=I×tq=4\ A\times 240\ sq=4 A×240 sq = 960 CSo, the amount of electric charge that flows through the conductor is 960 Coulomb. Hence, this is the required solution.