Question 22 (3 points) An oil drop of mass 5.2 x 10" kg, is suspended (motionless) between two parallel plates (as illustrated). Determine the magnitude of the charge on the oil drop (in C). - - - - - - - - - 0.50 cm O 120 V + + ++++++++ Question 23 (2 points) Consider your answer from the previous problem, does the charged drop have a deficit, or excess of electrons (enter 'excess' or 'deficit' in first blank)? How many electrons? - - - - - - - - - 0.50 cm O 120 V + + ++++++++. Question 24 (2 points) Vlad Jr. of the Toronto Blue Jays is teleported to a tiny planet The radius of this tiny planet is 100.0 km, and its mass is 3.00 x 10 8 kg. Vlad Jr. can throw a 0.1 kg baseball at 32 m/s. Will Vlad Jr. be able to throw the ball so that it escapes the planet's gravitational field? Justify your response.Question 25 (3 points) Three charges are arranged into an equilateral triangle with side lengths of 1m as shown in the diagram below. Determine the total electric potential energy (to 3 decimal places, in Joules) between the 3 charges. +4.0 AC -40 AC +20 AC Question 26 (3 points) Consider the three charges from the previous question. Determine the electric potential (in V) midway between the equal, but oppositely charged particles (on the left side of the diagram). +4.0 AC -4.0 AC +20 AC A/Question 27 (5 points) The diagram below shows two small conducting spheres placed on top of insulating pucks. One puck is anchored to the surface, while the other is allowed to move freely on an air table. The mass of the sphere and puck together is 0.15 kg, and the charge on each sphere is 3.0 x 10" C and 5.0 x 10"" C. The two spheres are initially 0.25 m apart. How fast (to 3 decimal places, in m/s) will the sphere be moving when they are 1 m apart? +3.0 x 10* C +5.0 x 10- C free to move will not move