Please answer all parts 3.Analyze the car hood mechanism shown below by completing the parts below:a. Draw the kinematic diagram of the mechanism with and without the spring.(label all links and joints). Complete b-f for both diagrams (w/ and w/o spring)b. How many links are there in the mechanism?c. How many joints are in the mechanism?d. Does this mechanism have a recognizable topology? If so, what is it?e. What task does this mechanism satisfy and why?f.How many degrees of freedom does this mechanism have?Hint: When creating kinematic diagrams of mechanisms containing non-linkage elements(springs, cams, gears, etc), you cannot ignore these features, but you also cannot simplyreplace them with a single binary link in the kinematic diagram. See table 1.2 of the Volltext (p.22) for a full list.XMOPTIMFrame10Hood(0

Answered: 3. Analyze the car hood mechanism shown…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Please answer all parts

3.
Analyze the car hood mechanism shown below by completing the parts below:
a. Draw the kinematic diagram of the mechanism with and without the spring.
(label all links and joints). Complete b-f for both diagrams (w/ and w/o spring)
b. How many links are there in the mechanism?
c. How many joints are in the mechanism?
d. Does this mechanism have a recognizable topology? If so, what is it?
e. What task does this mechanism satisfy and why?
f.
How many degrees of freedom does this mechanism have?
Hint: When creating kinematic diagrams of mechanisms containing non-linkage elements
(springs, cams, gears, etc), you cannot ignore these features, but you also cannot simply
replace them with a single binary link in the kinematic diagram. See table 1.2 of the Voll
text (p.22) for a full list.
XMOPTIM
Frame
10
Hood
(0

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Draw a kinematic diagram for the following mechanisms and suggest a possible real life use for it. a.) A 1 degree of freedom closed chain linkage with exactly 7 binary and 3 ternary links and only pin joints. b.) A 2 degree of freedom closed chain linkage with fewest possible binary links and single full joints only. Add degrees of freedom calculation using joints and links verifying mobility.
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Kinematic diagram for these mechanisms and suggest a real life situation where it's used. a.) A 1 degree of freedom closed chain linkage with exactly 7 binary and 3 ternary links and only pin joints. b.) A 2 degree of freedom closed chain linkage with fewest possible binary links and single full joints only. Add degrees of freedom calculation using joints and links verifying mobility.
Question No. 3: A sketch of a backhoe is shown in Figure 3.0. Draw a kinematic diagram of the mechanism. Specify the number of links and the number of joints and calculate the mobility for the mechanism shown in the figure. (CLO 1, PLO 1)
1. Sketch kinematic diagram 2. Identify number of links, 1 dof joints, 2 dof joints, and 3 dof joints. 3.Calculate the number of degrees of freedom for each mechanism. Please calculate the degrees of freedom only for the mechanism of the toilet tank shown in the picture
1. Determine binary, ternary link and quaternary link for the given kinematic chain as shown in figure below and also find the number of degrees of freedom by using Kutzbach criteria. 2.Explain with neat line diagram how Scotch yoke mechanism is used in control valve actuators in high-pressure oil and gas pipelines, as well as in various internal combustion engines, such as the Bourke engine.
Draw a kinematic diagram for the following mechanisms and suggest a possible real life use for it. a.) A 2 degrees of freedom closed chain linkage (meaning at least two points at which the ground is attached to the link) with no structures and fewest possible links; using full and half joints only. b.) A 1 degrees of freedom closed chain linkage with no structures and at least 3 binary and 2 ternary links.
500 mm B B2 A2 O2, 61.9292 X-line The slider-crank mechanism has a stroke of 500 mm. The required advance-to-return ratio is 1.80. The crank angle during the advance stroke (a), crank angle during the return stroke (B), crank link length (r2), and coupler length (ra) is. (See Theory of Machines and Mechanism, 5th Edition, Problem 1.31) (NOTE: Use the angle for the X-Line as shown) (a) a=231.43°, B=128.57°, r2-301.872 mm, r3=412.751 mm (b) a=128.57°, B=231.43°, r2=223.875 mm, r3=340.409 mm (c) a=231.43°, B=128.57°, r2-223.875 mm, r3-340.409 mm (d) a=128.57°, B=231.43°, r2=191.751 mm, r3-387.233 mm
Draw the kinematic diagram of the following mechanism by labelling the links and the joints and calculate its mobility / DOF.
1. A four-bar mechanism has the following link lengths: Ground Link: 1" Coupler Link: 3" Input Link: Output Link: 1.5" 1.75" Draw this mechanism in at least 3 different positions. Is this a Grashof type 4-bar? Describe the motion.

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