For the double-slider mechanism shown in the figure below, assume AO2 2 m, AB : 7...
イ-6 #2 In the followi a) Write the ng Slider crank mechanism OA-3 AB-8 inch e loop closure equation in complex form indicating the unknown quantities (s pts) + S pts) cl b) Using Analytical method solve the unknown quantities for-(2o·xevr c)lflink2(OA) rotates at N RPM find the angular velocity of tink 3 and the ve o where N-(600 + 10X + 10Y)- the slider 8.110 pts +Spts) AR8M, 契 ㄅ where NOA) rotateethod solve the complex formnch and AB-8...
In the mechanism shown below, link 2 drives the mechanism with a constant angular velocity of 20 ??? ???. Consider ??? ? 0.04 ?, ???? ? 0.06 ?, ??? ? 0.087 ?, ??C ? 0.11 ?, and ? ?? ? 0.05 ?. Determine all the value(s) of ? in the range of 0° ? ? ? 360° for which the ?? absolute velocity of slider ? becomes zero. Note: Show the graph(s) which you used to determine all the value(s)...
Part A Q1: The crank OP of a mechanism as shown in figure below rotates uniformly at 60 rpm counter-clockwise. Various links have following dimensions: OP = 50 mm; RQ= 200 mm; RS = 200 mm; PR = 300 mm a) Make appropriate scale to draw position diagram using graphical method. b) Find the linear velocities (mm/sec) and angular velocities (rad/sec) for all links and draw velocity diagram. c) Find the tangential accelerations (mm/sec) and radial acceleration (mm/sec) and angular...
Q1: The crank OP of a mechanism as shown in figure below rotates uniformly at 60 rpm counter-clockwise. Various links have following dimensions: OP - 50 mm; RQ-200 mm; RS - 200 mm; PR = 300 mm a) Make appropriate scale to draw position diagram using graphical method. b) Find the linear velosities (mm/sec) and angular velosities (rad/sec) for all links and draw velocity diagram. c) Find the tangential accelerations (mm/sec) and radial acceleration (mm/sec) and angular accelerations (rad/sec) for...
2) (120 pts) After successfully landing on the planet Mars, some scientists want to experimentally test the compressor mechanism given below. The compressor mechanism shown below is driven clockwise by a DC electric motor at a constant rate of 800 rpm, and accelerating at 1000 rad/s'. In the position shown, the cylinder pressure is 70 psi, and the plston weighs 2 lb. The coefficient of friction between the piston and the compressor cylinder is 0.5. The weight of all other...