If the angle of slope is 0 degree with the horizontal, the normal force will be ---
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- - 5. Two identical, uniform beams of length 3 m and weighing 260 N each are connected at one end by a frictionless hinge. A light horizontal crossbar, attached at the midpoints of the beams maintains an angle 50° between the beams. The beams are suspended from the ceiling by vertical wires so they form a V. See figure. (a) What force does the crossbar exert on each beam? (b) Is the crossbar under compression or tension, i.e. are the ends of the crossbar being pushed together or stretched farther apart? (c) What force (magnitude and direction) does the hinge exert on each beam? Crossbar Hinge5) A 520 g squirrel with a surface area of 945 cm2 falls from a 6.0-m tree to the ground. Estimate its terminal velocity. (Use the drag coefficient for a horizontal skydiver. Assume that the squirrel can be approximated as a rectanglar prism with cross-sectional area of width 11.6 cm and length 23.2 cm. Note, the squirrel may not reach terminal velocity by the time it hits the ground. Give the squirrel's terminal velocity, not it's velocity as it hits the ground.) _____ m/s What will be the velocity of a 52.0 kg person hitting the ground, assuming no drag contribution in such a short distance? _____m/sDetermine whether the 15-kg block shown is in static equilibrium under the loadings shown, and report the magnitude of the friction force (in Newton) when P = 700 N and 0 = 48 degrees at the state of static equilibrium. The coefficients of static and kinetic friction between the block and the rough inclined surface are shown in the picture. Report the friction force as positive when it is directed downward, and negative when it is directed upwards. 500 N μs = 0.35 Mk = 0.25 35° Ꮎ
- -T Problem 2 (a) An infinite plate with a small hole of radius a is subjected to a r = a far-field biaxial loading of: T b- co Oxr = T, oyy = -T asr- o y (The arrows in the Figure indicate the positive directions.) -T Determine the stress field o,(r, 0), dgo(r, 0), ore(r, 0). For r = a, determine the angle 0 at which ogg is a maximum or minimum. What is the stress concentration factor at the location of maximum ogg ? (b) Repeat part (a) above if the far-field biaxial loading is: Oxx = T, oyy = T as r co r=a T T y T.A moonshiner makes the error of filling a glass jar to the brim and capping it tightly. The moonshine expands more than the glass when it warms up, in such a way that the volume increases by 0.4% (that is, AV/Vo = 4 x 10-3) relative to the space available. Calculate the force exerted by the moonshine per square centimeter if the bulk modulus is 1.8 x 109 N/m², assuming the jar does not break. N/cm2 In view of your answer, do you think the jar survives? (Hint: How many atmospheres is this?) O No O YesA 25-ft chain with a weight of 30 lb is suspended between two points at the same elevation. Knowing that the sag is 10 ft, determine (a) the distance between the supports, (b) the maximum tension in the chain.
- a)calculate the compressive force acting on the lumbar vertebra b)Calculate the shear force acting on the lumbar vertebra. Report the force, in units of N The GRF is 225 N. The GRF has a moment arm of 0.40 m relative to the vertebra axis of rotation. The weight of the trunk is 350 N. Wtrunk has a moment arm of 0.3 m relative to the vertebra axis of rotation. Fm is 300 N. Fm has a moment arm of 0.05 m relative to the vertebra axis of rotation.As the angle between two concurrent angles decreases, does the magnitude of the force required to produce equilibrium increase, decrease, or the stay the same?