Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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how would you write this in a feature control frame.
"the axis of this post should be located within a cylindrical zone of .015 at MMC with respect to datum A,B and C but the perpendicularity to datum Amust be within .002 at MMC".
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- Apply geometric tolerancing to part according to the instructions below. This exercise will provide you with experience in correctly applying and interpreting geometric tolerancing symbology. If you have trouble applying the symbols, page through this unit looking for similar examples. The Hole Bar in this unit is a good reference. Draw symbols and feature control frames clearly and neatly. 1. Establish the right face in the side view as datum feature A. Qualify this feature with a flatness of .005. 2. Establish the top surface in the front view as datum feature B. Qualify this feature with a perpendicularity of .005 to datum feature A. 3. Establish the left surface in the front view as datum feature C. Qualify this feature with a perpendicularity of .005 to datum features A and B. 4. Establish all necessary dimensions as basic. 5. Position the .250 hole within a diameter of .005 RFS relative to datum features A,B,C. 6. Position the three holes within a diamter of .012 at MMC relative…arrow_forwardAll problems will use the conventional Cartesian coordinate system unless noted otherwise. Positive x-axis points to the right, Positive y-axis points up, Angles are measured CCW (counter-clock-wise) from the positive x-axis. Problem-BB: Consider FIG-BB in the appendix. AC is a rope. BC is a rope. “C” is a steel ring. “D” is a perfect pulley. A continuous rope connects “C” to the mass. Calculate the internal forces within each rope.arrow_forward1. Where controlling the angularity of a feature of size, the feature control frame is associated with the 2. Orientation controls include and in some cases, 3. Where controlling the perpendicularity of a feature of size, the feature control frame is associated with the of the feature being controlled. of the feature being controlled.arrow_forward
- Please show manually computed solutionarrow_forwardApply geometric tolerancing to part according to the instructions below. This exercise will provide you with experience in correctly applying and interpreting geometric tolerancing symbology. If you have trouble applying the symbols, page through this unit looking for similar examples. The Hole Bar in this unit is a good reference. Draw symbols and feature control frames clearly and neatly. 1. Establish the right face in the side view as datum feature A. Qualify this feature with a flatness of .005. 2. Establish the top surface in the front view as datum feature B. Qualify this feature with a perpendicularity of .005 to datum feature A. 3. Establish the left surface in the front view as datum feature C. Qualify this feature with a perpendicularity of .005 to datum features A and B. Please refer to the attached image.arrow_forward1. All orientation controls must have maximum material condition O a large tolerance zone O red text O datum features ?arrow_forward
- 15-1. A 100-ft grid is located over an area that measures 800 ft in the north-south direction and 800 ft in the east-west direction. The southwesterly corner is designated A-1 and the southeasterly corner is designated I-1. The northwesterly corner is designated A-9 and the northeasterly corner is designated I-9. Elevations are obtained at the grid points using a total station instrument, rounded off to the nearest foot. These are tabulated as follows: 375 372 366 360 354 350 340 322 302 312 365 364 8 372 372 370 368 362 361 339 7 366 365 365 366. 362 361 347 319 359 328 328 6. 363 353 350 360 362 350 347 361 340 335 343 352 350 338 334 4 360 344 329 328 337 339 325 321 321 3 360 343 320 317 318 318 313 312 312 308 302 303 323 326 2 358 343 316 310 303 291 340 B 1 353 318 310 303 297 292 A C D F G H Plot a grid to a scale of 1 in. = 200 ft and draw in 10-ft contour lines.arrow_forwardmechanical drawing sketch the isometric view of the support plate of the crosshead assembly and also sketch the top view of the given two views note :use creo parametric to figure out the following sketcharrow_forwardB1arrow_forward
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