A bump profile has been provided, which provides a vertical displacement over time for one wheel, based on the profile shown. It is suggested that you use a quarter-car model initially, in order to familiarise yourself with this system before proceeding to the half-car model.
2. Create a half-car model in Simscape Multibody with the given parameters, using joints which appropriately allow motion. .
3. Identify a location on the car body where the drivers head is likely to be and use this as a point from which to measure driver acceleration and displacement (use a transform and a transform sensor).
4. model output:
Driver displacement (absolute and relative to car), driver upward acceleration (absolute),
Tyre displacement (compression)
Force at suspension mounting (top)
5. Evaluate the sensitivity of the response, in terms of acceleration and displacement experienced by the driver, to TWO
Project Subject
Shark skin inspired low-drag microstructured surfaces in closed channel flow
Instructions
Create a power point that explains the project subject including;
Introduction, methods used in journal articles you reviewed, results, discussion and conclusion. You must include a section titled: Future perspective and recommendations - this section will reflect your thoughts.
Please use the MAIN ARTICLE I attached as main reference. You may use other articles I attached too as supportive articles. But specifically use the MAIN article
This is two labs
-Solar PV Panels
-Solar PV Water Pumping
We supposed to visit the lab on the field but due to the circumstance "COVID-19" we have given the data and the lab manual to follow the instructions.
I have attached all required files.
You will notice that the assembly of the eight components involved in this system is shown on the first page and details of the majority of the individual parts is provided on the following page. For three parts there are no details provided and for which you have to make educated estimates of their dimensions knowing how they fit into the system. Specifically, parts #3,4 and 7 are not detailed individually.
For example, looking at Part 3 [Bushing]. You know it fits inside a hole in Part #2 and so you can estimate/determine the diameter of the outside cylindrical shape. Part 5 also fits inside the bushing and so the internal diameter can be determined. Two bushings fit inside a given hole length (end to end) and so the length of an individual bushing can be determined. The last part of the bushing is then the top 'lip' or ridge which again can be determined by how it fits within the overall system setup.
This assignment must be completed manually on copies of your own tem
Write an interactive program to perform the following tasks in order:
a) Ask user to input an array size that is an integer value ranging from 10 to 20, inclusively
b) Check the validity of user input and ask the user to input again if previous value was invalid
c) Echo users valid input value on the screen
d) Assign array elements with random values (integer ranging from 0 to 100, inclusively)
e) Display array elements in their original order
f) Sort array elements from maximum to minimum
g) Display array elements in sorted order
h) Compute and display the median value of array elements
i) Compute and display the mean value of array elements
j) Compute and display the variance value of array elements
Your program needs to meet the following requirements:
Array elements are assigned with random values that do not repeat among executions
Array sorting is done in a sub-function
Computing median value is done in a sub-function
Computing mea
For this project, you will practice some of the surface modeling and rendering skills learned in lecture. It is a useful skill to be able to model objects that you find in every day life, so you are tasked with selecting, and modeling one of these objects.
Your model must:
Have reasonable size/form to your selected object by using at least one sketch picture scaled appropriately
Grading will be more lenient on complicated objects (i.e. a car) and more harsh on simple objects (i.e. an eraser)
Incorporate at least one advanced surface modeling element (surface boundary/ filled surface); More features are encouraged
Have accurate colors/textures of your object
Have at least one decal on your object (.png style decals preferred)
At least one camera set up for rendering with a background
Your model does not require:
sketches to be fully constrained
multiple components (i.e. a water bottle and its cap can be one static model, not necessarily an as
Ask the user to input the degree of the polynomial.
Based on the inputted degree, ask the user to input the different polynomial coefficients.
Generate a range X of values between 100 and 100.
Calculate polynomial P(x) for all values of range X. These results should be allocated in a vector P.
Plot the graph of P(x) in a figure titled Graph of Polynomial.
P(x) should be plotted in blue.
The title should be in blue, Font Size 16, Font Weight bold.
The x-axis should be labelled x-axis in red, Font Size 12, Font Weight bold.
The y-axis should be labelled y-axis in red, Font Size 12, Font Weight bold.
The figure should display major and minor grid lines.
x-axis limits should be set between the first and final roots 2.
&nb