D Question 1 10 pts The electric potential energy of a charged particle can be calculated by multiplying its charge by O the electrostatic force on the charged particle. O the electric field strength at the point where it is located. O its distance from another charge. O all of the above D Question 2 10 pts If a charged particle experiences an increase in voltage, its electric potential energy will O increase. O decrease. O stay the same.Question 3 Electric potential energy is a O vector quantity. CI scalar quantity. O type of force. D Question 4 The electric potential energy of a charged particle can be increased O by allowing It to move freely in the same direction as the electric field. O by applying a force to move It a distance against the electric eld. O by decreasing the voltage. C) none of the above Question 5 10 pts Voltage is a measure of O electric potential energy. O electric potential. O electric field strength. O electrostatic force. D Question 6 10 pts What variable would you need to determine the electric field of two objects separated by 300 V? O The charge of one of the particles O The charge of both particles The distance between the two objects O all of the above|_} Question 3" 10 pts As a positive charge moves in the direction ofa uniform electric field. its electric potential energy CI decreases. C) Increases. O stays the same. The voltage in electric potential energy is similar to the in gravitational potential energy. D height {h} C) mass {m} C) gravitational constant [g] 500' Volts is equivalent to CI 2.6% joules of energy per4 coulombs of charge. O \"LUCIE: joules of energy per 2 coulombs of charge. C) 500 Joules of energy per 1 coulomb of charge. O all ofthe above Question 10 10 pts Show all necessary calculations for the following problem: Calculate the potential difference created by a battery exerting 10 joules of energy to move 5 coulombs of charge. HTMLEciitori B I U i " A " l; E @' yr; HT 1T4 12pt 7 Paragraph 7 "I\" kill ||i|| Ilill X X