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69. Analyzing the forces tending to drag the M = 5124 kg stone down the oak beam, we find F = Mg (sin θ + µs cos θ) where µs = 0.22 (static friction is assumed to be at its maximum value) and the incline angle θ for the oak beam is sin−1(3.9/10) = 23◦ (but the incline angle for the spruce log is the complement of that). We note that the component of the weight of the workers (N of them) which is perpendicular to the spruce log is Nmg cos(90◦ − θ) = Nmg sin θ, where m = 85 kg. The corresponding torque is therefore Nmg sin θ where = 4.5− 0.7 = 3.8 m (see figure). This must (at least) equal the magnitude of torque due to F , so with r = 0.7 m, we have Mgr (sin θ + µs cos θ) = Ngm sin θ . This expression yields N ≈ 17 for the number of workers. Main Menu Chapter 1 Measurement Chapter 2 Motion Along a Straight Line Chapter 3 Vectors Chapter 4 Motion in Two and Three Dimensions Chapter 5 Force and Motion I Chapter 6 Force and Motion II Chapter 7 Kinetic Energy and Work Chapter 8 Potential Energy and Conservation of Energy Chapter 9 Systems of Particles Chapter 10 Collisions Chapter 11 Rotation 11.1 - 11.10 11.1 11.2 11.3 11.4 11.5 11.6 11.7 11.8 11.9 11.10 11.11 - 11.20 11.11 11.12 11.13 11.14 11.15 11.16 11.17 11.18 11.19 11.20 11.21 - 11.30 11.21 11.22 11.23 11.24 11.25 11.26 11.27 11.28 11.29 11.30 11.31 - 11.40 11.31 11.32 11.33 11.34 11.35 11.36 11.37 11.38 11.39 11.40 11.41 - 11.50 11.41 11.42 11.43 11.44 11.45 11.46 11.47 11.48 11.49 11.50 11.51 - 11.60 11.51 11.52 11.53 11.54 11.55 11.56 11.57 11.58 11.59 11.60 11.61 - 11.70 11.61 11.62 11.63 11.64 11.65 11.66 11.67 11.68 11.69 11.70 11.71 - 11.80 11.71 11.72 11.73 11.74 11.75 11.76 11.77 11.78 11.79 11.80 11.81 - 11.90 11.81 11.82 11.83 11.84 11.85 11.86 11.87 11.88 11.89 11.90 11.91 - 11.100 11.91 11.92 11.93 11.94 11.95 11.96 11.97 11.98 11.99 11.100 11.101 - 11.103 11.101 11.102 11.103 Chapter 12 Rolling, Torque, and Angular Momentum Chapter 13 Equilibrium and Elasticity Chapter 14 Gravitation Chapter 15 Fluids Chapter 16 Oscillations Chapter 17 Waves—I Chapter 18 Waves—II Chapter 19 Temperature, Heat, and the First Law of Thermodynamics Chapter 20 The Kinetic Theory of Gases Chapter 21 Entropy and the Second Law of Thermodynamics Chapter 22 Electric Charge Chapter 23 Electric Fields Chapter 24 Gauss’ Law Chapter 25 Electric Potential Chapter 26 CapacitanceChapter 27 Current and Resistance Chapter 27 Current and Resistance Chapter 28 Circuits Chapter 29 Magnetic Fields Chapter 30 Magnetic Fields Due to Currents Chapter 31 Induction and Inductance Chapter 32 Magnetism of Matter: Maxwell’s Equation Chapter 33 Electromagnetic Oscillations and Alternating Current Chapter 34 Electromagnetic Waves Chapter 35 Images Chapter 36 Interference Chapter 37 Diffraction Chapter 38 Special Theory of Relativity Chapter 39 Photons and Matter Waves Chapter 40 More About Matter Waves Chapter 41 All About Atoms Chapter 42 Conduction of Electricity in Solids Chapter 43 Nuclear Physics Chapter 44 Energy from the Nucleus Chapter 45 Quarks, Leptons, and the Big Bang
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