Electric Potential

Electric Potential or Electrostatic Potential For Live Classes, Concept Videos, Quizzes, Mock Tests & Revision Notes please see our Website/App: Our Website: http://bit.ly/2KBC0l1 Android App: https://bit.ly/3k48zdK CBSE Class 12 Courses: https://bit.ly/4h0L7IN CBSE Class 11 Courses: https://bit.ly/48isN9Q CBSE Class 10 Courses: https://bit.ly/363U55V CBSE Class 9 Courses: https://bit.ly/39Pm7mM CBSE Class 8 Courses: https://bit.ly/3bJByzB ICSE Class 10 Courses: https://bit.ly/2MaXpFo ICSE Class 9 Courses: https://bit.ly/3iFV7dl ICSE Class 8 Courses: https://bit.ly/3boM5OB IGCSE Courses: https://bit.ly/2YNwQcn Artificial Intelligence: https://bit.ly/3vm3FAE Python Coding: https://bit.ly/3nX0s2y Java Coding: https://bit.ly/3chHTAK Facebook page: http://bit.ly/2s6VYhf Electric potential, also called electrostatic potential, is the amount of electric potential energy per unit charge at a point in an electric field. It tells us how much work would be needed to bring a small positive test charge from a reference point (usually infinity) to that point. Electric potential (V) = Potential energy (U) divided by charge (q). So, V = U / q For a point charge Q, the electric potential at a distance r is: V = k * Q / r where k is Coulomb's constant (approximately 9 x 10⁹ Nm²/C²), Q is the source charge, and r is the distance from the charge. Key Points: * Electric potential is a scalar quantity. * Its unit is the volt (V), where 1 volt equals 1 joule per coulomb. * A higher electric potential means more potential energy for a positive charge. * The electric field is related to electric potential: the electric field points in the direction where potential decreases most rapidly. At Manocha Academy, learning Science and Math is Easy! The school coursework is explained with simple examples that you experience every day! Yes, Science & Math is all around you! Let's learn every day from everyday life!