The following figures (on the right) illustrate the four cap configurations of an assembly.Your task is to model a case (in accordance to the figure on the left) that can fit the configuration named"Blk1". Please note that the wall thickness of the case is 4 mm and the thickness of the front cut is 2 mm.R10(Comer_radius)120(Box height)120(Box_width)(Box_depth)30(Front cut_depth) MAIN TASK 9-2: Using the model you built in TASK 1, create a design table that includes key dimensionsof cases correspond to the four cap configurations. Carefully think about the height, width, corner radii,depth of cut, ...etc. before you create the design table.At the end, the two parts supposed to fit each other like the illustration below:

Answered: Image /qna-images/answer/f679a6de-0fc0-4309-8973-588605919937.jpg

Answered: The following figures (on the right)…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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David is working on her farming business and faces the challenge of watering her plants daily,which is a tedious and time-consuming task, especially under the scorching sun. The path shefollows for watering the plants is illustrated in figure 1.David's son has taken on the task of designing a prototype to automate the watering process forher. Figure 2 depicts the design, featuring a set of rods. The curved path represents David'stypical watering route, and the straight rod AB AB is confined to move along the path due to the pinsat its ends. Water sprinklers will be positioned at points A and B to efficiently water the plants.At the instant shown in figure 2, point A has the motion shown while its at the edge of the path.Determine the velocity and acceleration of point B at this instant.
The title of our study is "Design and Fabrication of an Agricultural Spraying Attachment for an Autonomous Rover" we need help in the machine design part of our study, specifically Pump selection, battery selection, and center of gravity computation I already sent you the image of the rover Rover weight capacity 35 kilo grams (payload) Rover measurements: Wheel distance - 14.5 inches and 8.5 inches Rover platform size (width & length) 14.4 inches x 10.4 inches Height- 15.8 inches. Water tank selection More or less 25 liters *For tank selection we need to justify the size with the center of gravity, proving that is the maximum dimension or liters of the tank because the center of gravity will be higher making the rover prone to toppling Pump selection *Our sprayer design has two nozzles which splits using a tee splitter, we need to find the size of the pump to obtain the same discharge rate of a normal sprayer. A normal sprayer has a 12V pump and a pressure from 0.2 to 0.45 mpa…
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I have been working on this Solid Mech problem for a while and have gottem nowhere we are supposed to be finding the modulus of elasticity for a set of data (attached). I have made an excel sheet from this to finda stress strain graph. I understand how the modulus of elasticity is (E = (delta stress)/(delta strain)) but I cannot find the propotional limit that I need to find delta stress and delta strain
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The question and data are in pictures. Please answer properly with each steps and explanation. Best of luck. Thank you so much in advance.
This drawing using the direct tolerancing method, allows the design intent to be unclear. Study the assembly below and convert this drawing to geometric tolerancing. Add datum feature symbols to create a datum reference frame. Make necessary dimensions basic. Apply geometric tolerancing to define your design intent for this assembly. At this point, apply just enough geometric tolderancing to meet your own specific needs, and estimate the tolerances. Please help!! Also please refer to the attached image.
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Can you help me with this problem? P1 is where the blue dot is
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