Q1. Fig 1. Shows the details of an "Unprotected Flange Coupling". Assemble the details and draw the following views of the assembly. a. Half Sectional Front View b. Side View Show the bill of materials and projection symbol along with the Title Block. Draw the views with proper dimensions and show the dimensions in the views. Take necessary scale if required. 6 2 $\emptyset$25 SIDE VIEW FRONT VIEW SHAFT (2-OFF) A 12 $\emptyset$100 28 240 2 $\emptyset$50 FLANGE (2 OFF) HALF SEC. FRONT VIEW 6 LH SIDE VIEW 34 4 TAPER 1:100 KEY (6x4) (2-OFF) A $\emptyset$26 $\emptyset$6, 4 HOLES ON 75 PCD HEX. HEADED BOLT AND NUT (4 OFF) Figure 1: Details of an Unprotected Flange Coupling
Added by Herbert S.
Close
Step 1
Step 3: Draw the shaft with Ø25 diameter extending through both flanges, ensuring the keyway is shown in the sectional part. Step 4: Draw the flanges with the following dimensions: - Outer diameter: Ø100 mm - Hub diameter: Ø50 mm - Hub length: 28 mm each (total Show more…
Show all steps
Your feedback will help us improve your experience
Penny Riley and 78 other Physics 101 Mechanics educators are ready to help you.
Ask a new question
Labs
Want to see this concept in action?
Explore this concept interactively to see how it behaves as you change inputs.
Key Concepts
Recommended Videos
A horizontal beam $A B$ with cross-sectional dimensions $(b=19 \mathrm{mm}) \times(h=200 \mathrm{mm})$ is supported by an inclined strut $C D$ and carries a load $P=12 \mathrm{kN}$ at joint $B$ (see figure part a). The strut, which consists of two bars each of thickness $5 b / 8,$ is connected to the beam by a bolt passing through the three bars meeting at joint $C$ (see figure part b). (a) If the allowable shear stress in the bolt is $90 \mathrm{MPa}$ what is the minimum required diameter $d_{\min }$ of the bolt at $C ?$ (b) If the allowable bearing stress in the bolt is $130 \mathrm{MPa},$ what is the minimum required diameter $d_{\min }$ of the bolt at $C ?$
Tension, Compression, and Shear
Design for Axial Loads and Direct Shear
A rectangular loop of wire has dimensions $0.500 \mathrm{m}$ by $0.300 \mathrm{m} .$ The loop is pivoted at the $x$ axis and lies in the $x y$ plane as shown in Figure $P 22.26 .$ A uniform magnetic field of magnitude $1.50 \mathrm{T}$ is directed at an angle of $40.0^{\circ}$ with respect to the $y$ axis with field lines parallel to the $y z$ plane. The loop carries a current of 0.900 A in the direction shown. (Ignore gravitation.) We wish to evaluate the torque on the current loop. (a) What is the direction of the magnetic force exerted on wire segment $a b$ ? (b) What is the direction of the torque associated with this force about an axis through the origin? (c) What is the direction of the magnetic force exerted on segment $c d ?$ (d) What is the direction of the torque associated with this force about an axis through the origin? (e) Can the forces examined in parts (a) and (c) combine to cause the loop to rotate around the $x$ axis? (f) Can they affect the motion of the loop in any way? Explain. (g) What is the direction of the magnetic force exerted on segment $b c ?$ (h) What is the direction of the torque associated with this force about an axis through the origin? (i) What is the torque on segment $a d$ about an axis through the origin? (j) From the point of view of Figure $\mathrm{P} 22.26,$ once the loop is released from rest at the position shown, will it rotate clockwise or counterclockwise around the $x$ axis? $(\mathrm{k})$ Compute the magnitude of the magnetic moment of the loop. (l) What is the angle between the magnetic moment vector and the magnetic field? (m) Compute the torque on the loop using the results to parts (k) and (1).
A.) Draw and label an extended free body diagram for the beam, draw each force at the location where it is exerted and label each force with the type of force and the object exerted on and exerted by. B) how much upward force does support 1 exert on the beam, explain reasoning and show work
David M.
Recommended Textbooks
University Physics with Modern Physics
Physics: Principles with Applications
Fundamentals of Physics
Watch the video solution with this free unlock.
EMAIL
PASSWORD