Problem 1 Find the dimensioning mistakes and then dimension the object correctly 010 020 C sink...
Problem 2: The following object has been dimensioned incorrectly. There are five mistakes in dimensioning the object. Note down mistakes and re-dimension the drawing. Ø20 1) 2) 3) 4) 5) 30 10 ー30 50 15 10 30 20 10 巴弓自
need help with 3 & 4 3. Identify 4 incorrect dimensions and list all mistakes associated with them. Then, dimension the object correctly using proper dimensioning techniques. (print this page, and draw the missing front view) Ø20- 010 2) 20 3) 25 35 20 10 4. Draw the necessary orthographical views and completely dimension for the following object. 4. Draw the necessary orthographical views and completely dimension for the following object. 2.1 Notice: please use standard cover page for your...
P4-8) The following object is dimensions incorrectly. Identify the incorrect dimensions and list all mistakes associated with them. Then, dimension the o eject correctly using proper dimensioning techniques. There are four mistakes. Chapter 4 - Dimensioning 1 Name: Date: P4-8) The following and list all mistake proper dimensioni llowing object is dimensioned incorrectly. Identify the incorrect dimensions stakes associated with them. Then, dimension the object correctly using cioning techniques. There are four mistakes. -3.000 .500- 1.500 1.000 T .500 .750...
1. Dimension the given object use standard dimensioning practices SCALE: FULL SIZE 2. Dimension the given object use standard dimensioning practices SCALE: 1/4-1
P4-7) The following object is dimensioned incorrectly. Identify the incorrect dimensions and list all mistakes associated with them. Then, dimension the object correctly using proper dimensioning techniques. There are six mistakes 1) 2) 3) 4) 5) 6) 25 2.00 1.5000 2.50 1.50 50 DIA 25 1.00 25 1.00 .50
Marked out of 10 An object moved in one dimension with velocity 5 m/s for 60 s. then with 10 m/s for 90 s, and finally with 10 m/s for 20 s. The average speed of the object during the whole trip is Select one 1.8.25 m/s b.3.4 m/s c. 5.9 m/s d. 4 m/s
Figure 1 shows a ROLLER SUPPORT ASSEMBLY that contains several parts. including standard components. The specifications for all components are given in Table 1 Table 1: Components of roller support assembly PART I NAME MATERIAL DETAIL DRAWING REQUIRED NO BASF PLATE 1010 STFF CAST IRON NO 2 BRACKET NO BUSHING BRASS NO SHAFT YES ELL ROILER SCREW M18 x 2.5 25 MIN LG FULL THD GREASE FITTING MB X 010 SIEE YES 6 1020 SIEEL NO NO 020 SIEEL Create...
TE マ FILE NUMBER GRADE DIMENSION THE PART. A, USE DECIMAL INCH DIMENSIONS GRIDS ARE .25 B. USE METRIC DIMENSIONS GRIDS ARE 10 MILLIMETERS C. USE FRACTIONAL DIMENSIONS. GRIDS ARE 1/4 DAT NAME DIMENSIONING TE マ FILE NUMBER GRADE DIMENSION THE PART. A, USE DECIMAL INCH DIMENSIONS GRIDS ARE .25 B. USE METRIC DIMENSIONS GRIDS ARE 10 MILLIMETERS C. USE FRACTIONAL DIMENSIONS. GRIDS ARE 1/4 DAT NAME DIMENSIONING
MCE 354 Name A small object (prototype) of dimension 1 mm moves slowly in water. A scale model 100 times larger is tested in glycerin at a velocity of 30 cm/s. The measured drag on the model is 1.3 Newton. Assume the force F on an immersed body in a fluid depends on body length, stream velocity, density and viscosity. (a) Use dimensional analysis to find important dimensionless groups use 5,V,L as Core b) Use similarity analysis to find velocity...
Problem #1 (010) 2 A P1 6 A P2 5 V INSTRUCTIONS: Solve for the unknown voltage (V), current (D, and the powers received or delivered by the 4 components. m #2 (0/10)