代写Final Exam MAE 145 Spring 2023代写数据结构语言程序
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Quiz Instructions
Reminder: "quadrilateral linkage" is the same as "4R linkage".
Question 1 5 pts
What is the mechanical advantage of the wedge shown in the following graph? The angle alpha is equal to 60 degrees.
1.73
1
1.41
0.58
Question 2 5 pts
Which linkage system has mobility equal to one?
All of the above
Question 3 5 pts
The no-load speed and the stall torque of an electric motor are 2000 rpm and 2700 in lbf, respectively (where there is a linear relationship between the torque and motor speed). What is the motor torque (units of in*lbf) when the motor speed is 1000 rpm?
1350
2200
1150
2700
Question 4 5 pts
Transmission shifts the power from the motor to the wheels according to the graph below. What is, for that speed ratio, the most appropriate transmission type?
clutch overdrive
belt or cable drive
gear train
linkage system
Question 5 5 pts
In the picture below, the small gear on the left is the input and the large gear on the right is the output. All small gears have 8 teeth and all large gears have 15 teeth. If the input gear spins at 1620 rpm CCW, how fast does the output gear spin?
246 rpm CW
212 rpm CW
10676 rpm CW
10677 rpm CW
Question 6 5 pts
Consider the planetary gear train below with annular gear fixed. The sun and planets both have 12 teeth and the annular gear has 36 teeth. The carrier is rotating at 100 RPM. What is the angular velocity of the sun gear?
400 RPM
300 RPM
25 RPM
33.3 RPM
Question 7 5 pts
If a car (with all four wheels of the same diameter) is going straight without turning and left rear wheel is rotating at 100 RPM, the carrier of the differential is rotating at:
0 RPM
200 RPM
100 RPM
50 RPM
Question 8 5 pts
In the schematics below the fixed carrier train ratio R is equal to 4. For the situation with a fixed sun gear, when the input gear is the ring gear and the output gear is the carrier, what is the gear ratio?
-1.25
0.75
0.85
1.25
Question 9 5 pts
For a given input angle θ, the velocity loop equations are:
The result of taking the derivative the position loop equation with respect to time.
All of these
Two linear equations in two unknowns that are solved using Cramer's rule
Question 10 5 pts
A car's suspension can be represented by the inverted slider crank represented in the illustration below. If at the value of theta = 0 degrees, a = 0.4 m and r = 1.2 m we were to replace the actual spring (with stiffness k) by the equivalent spring but placed above the tire (the tire's location is indicated by arrow Fout), the stiffness of that imaginary spring with respect to the original spring's stiffness (k) will be ...
equal to the original value k
9 times smaller
4 times smaller
4 times greater
Question 11 5 pts
Compute the angle (in degrees), given that a=2, h=6.5, b=4, c =3.5, c =1.2, =49.4 and =90 . Note we consider the origin to be at point O here, so the equations used here match the derivations from the Homework 5 reference file. Answers are rounded to the nearest hundredth.
30.68
35.42
25.72
20.13
Question 12 5 pts
Which of the following are equivalent?
SELECT ALL THAT APPLY. (Two)
Mechanical advantage
Torque
Speed ratio
Time ratio
Question 13 5 pts
The instant center for the quadrilateral linkage in this configuration is the point I . Let R1 = 25cm, R2 = 50cm, and Link 3 = 20cm. What is the mechanical advantage MA of the linkage at this instant?
None of these
2
0.5
1
Question 14 5 pts
Rear-wheel-drive cars typically have ...
parallel steering geometry
negligible bump steer
double-A arm suspension
slight toe-in
Question 15 5 pts
What is the maximum velocity achieved by a car that starts at rest on a straight track of length 200m? The car's acceleration is not limited by the engine's power as it is quite considerable. The coefficient of friction of the track is μ=0.4. The gravitational acceleration is 9.8 m/s2 .
22.1 m/s
31.3 m/s
52.4 m/s
39.6 m/s