In each of the drawings below a small electric charge is being moved within an electric...
QUESTION 1 In each of the drawings below a small electric charge is being moved within an electric field. In each drawing E (the electric field) is the same, the charge that is being moved is the same, and the distance d that the charge is being moved is the same. Rank the three drawings in order from the most work done by E on the charge to the least work done by E on the charge. Most work done...
1. A particle with a charge of +4.20 nC is in a uniform electric field E⃗ directed to the negative x direction. It is released from rest, and after it has moved 6.00 cm , its kinetic energy is found to be 1.50×10−6 J . a. What work was done by the electric force? b. What was the change in electric potential over the distance that the charge moved? c. What is the magnitude of E? d. What was the change...
Problem 4 An electron is moved from point A to point B in a uniform electric field and gains 1.20 x 1015 J of electrostatic potential energy. Calculate the magnitude of the electrostatic potential difference betweern the two points
(a) State the units of electric potential and electric potential energy. Sketch an equipotential surface at a distance r from a point charge q and state the magnitude of the work done in moving a small test charge along that surface. [5 marks] (b) The figure below shows four representations (labelled A, B, C and D, respectively), of the electric field lines between the plates of a parallel plate capacitor. Identify which drawing is correct and indicate what is incorrect...
• A •B Choose true or false for each statement below about the uniform electric field shown above. The kinetic energy of a negative charge moved from point C to point A will decrease. A negative charge moved from point A to point C will have no change in potential energy. The plate on the right is negatively charged The electrostatic force on a charge is greater at point B than at point A The potential difference between points A...
An electron is moved from point A to point B in a uniform electric field and gains 1.38 x 10-15 J of electrostatic potential energy. Calculate the magnitude of the electrostatic potential difference between the two points. Problem 4 An electron is moved from point A to point B in a uniform electric field and gains 1.38 x0J of electrostatic potential energy. Calculate the magnitude of the electrostatic potential difference between the two points Due Friday February 0 1:59 am...
Consider the drawing shown below. Is the electric field stronger at point A or at point B? Point A Point B The electric field has the same magnitude at points A and B. Point A Point B The electric field has the same magnitude at points A and B. If a +3 C charge is moved from A to B in the figure from question 8, what is the change in the potential energy of the system (in Joules)?
An electron is moved from point A to point B in a uniform electric field and gains 1.76×10-15 J of electrostatic potential energy. Calculate the magnitude of the electrostatic potential difference between the two points.
An electron is moved from point A to point B in a uniform electric field and gains 4.14 x 10-15 J of electrostatic potential energy. Calculate the magnitude of the electrostatic potential difference between the two points.
Homework: Electric Energy Ranking I. For a charge Q = +25 μC: a. Rank the electric energy between Q and q for a charge q +10 uC placed at points A-F Smallest b. Rank the electric energy between Q and q for a charge q +3 uC placed at points A-F. Largest- 123 6. ←smallest +100 pC placed at points A-E Smallest c. Rank the electric energy between Q and q for q Largest → 1 . 2· 4 5·...