Question

Kinematics of Machines

A10.4 - A four-bar linkage is shown below. (a) Use instant centers to calculate w, and w..(b) Draw the acceleration vector loop diagram, and use it to (c) find the magnitude and and ag. (d) Find the magnitude and direction of the absolute acceleration of direction of point P on link 3. Tip: use a scaled acceleration image of link 3.

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### Question 44189

Kinematics of Machines

For the Planetary (Epicyclic) Gear, use Martin Table and calculate the velocity of each link, given the angular velocity of the input.

### Question 44188

Kinematics of Machines

a. Determine the direction of the rotation by drawingan arrow on the gear.
b. Given the angular velocity of the input gear calculate the angular velocity of each link.
For the following gear set,

### Question 44187

Kinematics of Machines

For the complex internal and external contact spur gear set,
a. Determine the direction of the rotation for each gear by drawing an arrow on it.
b. Calculate the transmission ratio between the input and the output gears as a function of Ni.
c. Determine the idler gear(s).

### Question 44186

Kinematics of Machines

For each case,
a. Calculate the total number of instantaneous centers of rotation.
b. Specify the primary instantaneous centers of rotation and draw them on the circle diagram with solid lines.
c. Use Kennedy's theorem to find ONLY the secondary instantaneous center of rotation specified in the picture. Do this in the shortest possible way!

### Question 44185

Kinematics of Machines

A. Calculate the total number of instantaneous centers of rotation.
B. Specify the primary instantaneous centers of rotation and draw them on the circle diagram with solid lines.
C. Use Kennedy's theorem to find all the secondary instantaneous centers of rotation and draw them on the circle diagram with dash lines.

### Question 44184

Kinematics of Machines

Given the harmonic motion program, draw the corresponding cam contour.

### Question 44183

Kinematics of Machines

\text { Given constant angular velocity }(\omega=1 \mathrm{rad} / \mathrm{sec}) \text { for the cam, }
Use two second order polynomials to design the motion program.а.
b. Plot position, velocity, acceleration, and jerk.
c.Approximately, draw the corresponding cam contour.

### Question 44182

Kinematics of Machines

Only for inversion one of this mechanism,
A. Use Grash of condition and the function of the shortest link in the left- and right-hand side loops to examine the rotate ability of links # 2 and 6.
B. Use toggle position method in the left- and right-hand side loops to examine the rotate ability of links # 2 and 6.
C. If any of the links # 2 or 6 is a rocker determine the range of the rotation.

### Question 44181

Kinematics of Machines

Choose your favorable Six-bar Mechanism from the videos on D2L or something you found in abook or online and then,
а.Provide the name and application of the mechanism.
b. Draw a schematic of the mechanism and specifying the input and output links.
c. Draw all the inversions of the mechanism.

### Question 43144

Kinematics of Machines

Calculate the power N [W] necessary to maintain a constant speed of a rigid body with thedimensions shown in the figure, completely immersed, moving in a liquid with a density ofp [kg/m³] and a kinematic viscosity coefficient v[m² /s] at the speed v [m/s]. For the calculations,take:
C_{x}=0,025
v=10^{-6}\left[\mathrm{~m}^{2} / \mathrm{s}\right]
v=10-0,2 \cdot N r[m / s]
L=2+N r[m]
\rho=1025\left[k g / m^{3}\right]
D=0,8+0,2 \cdot N r[m]