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Example Problem (difficult!)

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Presentation on theme: "Example Problem (difficult!)"— Presentation transcript:

1 Example Problem (difficult!)
Two particles are located on the x-axis. Particle 1 has a mass of m and is at the origin. Particle 2 has a mass of 2m and is at x=+L. A third particle is placed between particles 1 and 2. Where on the x-axis should the third particle be located so that the magnitude of the gravitational force on both particles 1 and 2 doubles? Express your answer in terms of L. Solution: Principle – universal gravitation (no Earth), F12=Gm1m2/r2 Strategy – compute forces with particles 1 and 2, then compute forces with three particles

2 x m1 m2 m3 L x1 m2 m1 x L Situation 1 Situation 2 Given: m1 = m, m2 = 2m, r12 = L Don’t know: m3=? Find: x = r13 when force on 1 and 2 equals 2F12 Situation 1: FBD m1 F12

3 FBD F21 m2 Situation 2: FBD Since in situation 2 the total force must be 2F12. Solve for x. F13 m1 F12

4 FBD F23 m2 Now consider m2: F21

5 or Substitute for m3

6 m3 x m1 m2 m3 L x1 Since

7 The Normal Force Consider the textbook on the table F? F? mg mg
Consider Newton’s 2nd law in y-direction: but book is at rest. So, ay=0, gives New force has same magnitude as the weight, but opposite direction

8 New force is a result of the contact between the book and the table
New force is called the Normal Force, N or FN In general it is not equal to mg - we must usually solve for N ``Normal’’ means ``perpendicular’’ (to the surface of contact) Now, apply an additional force, FA to the book FA N FA N mg mg The normal force is not mg!

9 Normal Force (Revisited)
Put textbook on a scale in an elevator FN FN a mg mg If elevator is at rest or moving with a constant velocity up or down, a=0. Then Newton’s 2nd law gives:

10 If a = -g, FN = 0 (“weightless”)
If elevator is accelerating? If a > 0, FN > mg If a < 0, FN < mg If a = -g, FN = 0 (“weightless”)

11 Book on an Incline (Frictionless)
y y FBD FN FN mg x x mg Using Newton’s 2nd Law, find the normal force and the acceleration of the book As we did for 2D kinematics, break problem into x- and y-components

12 If   0°, ax = 0 and FN = mg If   90°, ax = g, FN = 0

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