REFERENCE: https://drive.google.com/file/d/1DXujtLSLCiQLeo0RhJnFaPVTLnh4A1_u/view?usp=sharing

REFER TO THIS LINK: https://drive.google.com/file/d/1DXujtLSLCiQLeo0RhJnFaPVTLnh4A1_u/view?usp=sharing

please answer this, with solutions and explanations, what's more and what i have learned. I WILL GIVE A HIGH RATE. thank you so much. please help.

What's More It's Your Turn! I. Modified True/False: On a separate sheet of paper, write TRUE if the statement is true. Write FALSE if the statement is false. Change the underline word/s that make the statement false to make it correct. 1. The work done by the electric field (E) on a charge (q) is equal to the decrease in the electric potential energy. 2. If a test charge moves against the direction of the electric field, the potential energy decreases. 3. Electric potential is a vector quantity with SI unit volt after Alessandro Volta. 4. Electric potential energy does not depend on the mass, only on the charge and voltage. 5. Since the potential energy does not change as a charge is moved over an equipotential surface, the electric field can do work on such charge. 6. The electric field lines and equipotential surfaces are always parallel to each other. 7. Electric field can be expressed in Newton/Coulomb (N/C) and Volt/meter (V/m). B. At a point near a positive charge, the potential is positive; near a negative charge, it is negative. 9. An equipotential surface is a three-dimensional surface on which the electric potential is the same as every point on that space. 10. The conservation of mechanical potential energy is not applied in electric potential energy.Discovering My Problem-Solving Potential Skills II. Problem-Solving: Solve the following problems and follow the format: Given, Illustration, Asked, and Solution. Then, enclose in a box the final answer. Write your answer on a separate sheet of paper. 1. A point particle charge 2.5 nC and mass 3.25 x 10-3 kg is in a uniform electric field directed to the right. After it has traveled 12.0 cm from rest, its speed is 25 m/s. Find the (a) work done on the particle, (b) change in the electric potential energy of the particle, and (c) magnitude of the electric field. 2. A stationary proton is moved from point A, where the potential is 450.0 V, to point B, where the potential is 125 V. (a) How much work is done by the electric force? (b) What is its speed at point B? 3. A point charge of 3.00 x 10* C is 4.00 m from point A and 3.00 m from point B. (a) Find the potential at point A and B. (b) How much work is done by the electric field in moving a 3.00 UC particle from point A to point B? 4. Four charges, q1 = 3.00 x 10 C, q2 = -2.00 x 107 C, q3 = 6.00 x 107 C, and q4 = -5.00 x 107 C, are situated at the comers of a square of side 6.00 m. Find the potential at the center of the square