list the constraint equationns for the refernce coordinate system for the scotch yoke example below.
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Q1. The Scotch-Yoke mechanism converts rotational motion of the disk to oscillatory translation of the shaft as shown below. a) Write position loop closure equation of the mechanism by indicating position vectors using two letters (i.e.AB, BC, etc.). Show the position vectors drawn as arrows and joint variables on the illustration clearly. b) Write position loop closure equation of the mechanism, by indicating vectors using complex numbers in exponential form. c) Write velocity loop closure equation of the mechanism, by...
Problem 2 A variation of the Scotch-yoke linkage in the posture shown is driven by crank 2 at w- 36 rad/s CCW. Use the relative-velocity approach to determine the velocity of the crosshead of link 4. Locate all instant centers using the circle-diagram method. 02 105 45 lo2 Figure P3.26 RAo2 250 mm.
Shown in figure is a Scotch yoke mechanism. What is the input and output motion of the mechanism? Derive (a) an expression for the position vector, Re, velocity, Vo=RB and acceleration, AB =Rp of the point B on yoke and (b) an expression for the position vector, RA, velocity, VARA and acceleration, AA =RA of the point A on slider in terms of 02, 02, d2 and O2A=a (crank length) y A 42 OzA=a 002 Ix B Position, velocity and...
Shown in figure is a Scotch yoke mechanism. What is the input and output motion of the mechanism? Derive (a) an expression for the position vector, Re, velocity, V=RB and acceleration, AB =Rg of the point B on yoke and (b) an expression for the position vector, RA, velocity, VA=RA and acceleration, AA =RA of the point A on slider in terms of 02 , 02, 2 and 02A=a (crank length) y O2A=a 002 I >> B Position, velocity and...
Shown in figure is a Scotch yoke mechanism. What is the input and output motion of the mechanism? Derive (a) an expression for the position vector, Re, velocity, V=RB and acceleration, AB =Rg of the point B on yoke and (b) an expression for the position vector, RA, velocity, VA=RA and acceleration, AA =RA of the point A on slider in terms of 02, 02, 2 and 02A=a (crank length) Α. y OzA=a 002 I >> B Position, velocity and...
Problem No 2: (60 points) For the scotch yoke mechanism shown, o,-10 rad/s CCW, a, 1 rad/s'CW and 0 60. The length of link OA is 20 in. a). Write the vector loop equation and find an analytical expression for the position of link 4 for any input angle 6, (Clearly identify your vectors on the figure. b). Determine the velocity of link 4 using a velocity polygon c). Determine the acceleration of link 4 using an acceleration polygon Problem...
Problem No 2: (60 points) For the scotch yoke mechanism shown, 0,-|0 rad's CCW, α,-1 radscw and 60. The length of link OA is 20 in. a). Write the vector loop equation and find an analytical expression for theh on of link 4 for any input angle 6,. (Clearly identify your vectors on the figure. b). Determine the velocity of link 4 using a velocity polygon c). Determine the acceleration of link 4 using an acceleration polygon.
/40) 3. The scotch yoke mechanism shown gives a simple harmonic translatory motion of the output in response to a constant speed input to the crank. The friction at the sliding joint is characterized by the kinetic coefficient of friction u. Draw the free-body- diagrams of the links, and identify the force vectors, torques, and position vectors on them Use the Newtonian approach and write the equations needed in order to performa dynamic force (kineto-static) analysis of this mechanism. Identify...
1.What a probabilistic constraint and show with an example. 2. Compare the release time with the phase and show with an example 3. Describe a real time system and specifically explain what makes it real time
Illustrate with a specific example the importance of map projection/coordinate system in GIS operations.