01: A gas bubble from an explosion under water, oscillates with a period T proportional to padE where p is the static pressure, d is the density of water and E is the total energy of explosion. Find the values of a, b, and c. 02: Compute the work done against gravity by a pump that discharges 600 liters of fuel oil into tank 20 m above the pump's intake. One cubic centimeter of fuel oil has a mass of 0.82 g. One liter is 1000 cc Q3: A ball at the end of a (5.91 ft.) long string swings as a pendulum. The ball's speed is 400 em's as it passes its lowest position. a- To what height above this position will it rise before stopping? b- What angle does the pendulum then make to the vertical? Note: sketch the problem

01: A gas bubble from an explosion under water, oscillates with a period T proportional to padE where p is the static pressure, d is the density of water and E is the total energy of explosion. Find the values of a, b, and c. 02: Compute the work done against gravity by a pump that discharges 600 liters of fuel oil into tank 20 m above the pump's intake. One cubic centimeter of fuel oil has a mass of 0.82 g. One liter is 1000 cc Q3: A ball at the end of a (5.91 ft.) long string swings as a pendulum. The ball's speed is 400 em's as it passes its lowest position. a- To what height above this position will it rise before stopping? b- What angle does the pendulum then make to the vertical? Note: sketch the problem

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

01: A gas bubble from an explosion under water, oscillates with a period T proportional to
padbE where p is the static pressure, d is the density of water and E is the total energy of
explosion. Find the values of a, b, and c.
02: Compute the work done against gravity by a pump that discharges 600 liters of fuel oil into
tank 20 m above the pump's intake. One cubic centimeter of fuel oil has a mass of 0.82 g. One
liter is 1000 cc
Q3: A ball at the end of a (5.91 ft.) long string swings as a pendulum. The ball's speed is 400
cm's as it passes its lowest position.
a- To what height above this position will it rise before stopping?
b- What angle does the pendulum then make to the vertical?
Note: sketch the problem

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