Lab 04 PDF

Item 1 used to intermittently operate a piece of equipment at the end of a lifter arm. The lifter is in contact with the highest point of the cam at the instant shown and the lifter is constrained to move only in the vertical direction. The cam has a radius of r = 4.5 in and is rotating about point O, which is offset from the center by a distance c = 3.0 in. The cam's angular position is measured from the positive x axis and is positive clockwise. The angular velocity and acceleration are positive clockwise. (Figure 1) Figure (0,0 36°F Clear r W 1 of 1 Par Find align Expr Vie Omin Subn Provide Feedb

10. A simply supported shaft between bearings camies a steady load of 10 kN at the centre. The length of shaft between bearings is 450 mm. Neglecting the effect of stress concentration, find the minimum diameter of shaft. Given that Endurance limit = 600 MPa; surface finish factor = 0.87; size factor = 0.85; and factor of safety = 1.6. [Ans. 35 mm]

please answer problems 7 ,9  and 11 in full detail

Needs Complete typed solution with 100 % accuracy.

Hand written plz

Question 4 A RWD Formula SAE car is given with the following information m = 600 lbm (including the driver), 1=64.0 inches the CG is located at a1 = 0.6 l, h = 12.8 inches Determine the following with all resistances ignored a) Normal force (lbf) at the front tires if accelerating at a4 = 20 ft/sec? b) Normal force at the rear tires if accelerating at aa 20 ft/sec2 c) Total driving force if accelerating at a4 = 20 ft/sec2 d) Total braking force if the vehicle decelerates at ag = 10 ft/sec?

4. Need help please. Answer with 3 sig figs only.

Question 2 A clearance fit between a Shaft and a Pulley is given as 15 H8-f7 (units in mm). Please refer to the Limits and Fits document from myUNISA additional resources; for convenience an excerpt o this table is provided on Page 5. Do the following: 2.1 State the nominal shaft size Using the ISO Limits/Fits table, determine the upper and lower tolerance for the shaft. (Hint, consider the H8 designation and make sure units are correct) 2.2 Using the ISO Limits/Fits table, determine the upper and lower tolerance for the hole (bearing). (Hint, consider the f7 designation and make sure units are correct) 2.3

I want full calcuations shows all the steps !! with analysis

required drawing of problem and show your complete solution and formula provided in pic thanks.

Calculation of Limits using ANSI B4.1 Standard Tables, when one of the design Features Exists. When calculating the limit tolerances for features that mate with purchased parts, the purchased part size must be known. This may be obtained be requesting a drawing from a vendor or, a caliper or micrometer can be used to obtain an accurate size. A shaft diameter of 1.2500" is to be pressed into a part using a FN3 interference (force) fit. Limits of size for the shaft diameter are 1.2500" and 1.2495". Determine the Limits of the hole diameter. Show all work.

Please help. Written on paper not typed on computer or keyboard please. Need help on all questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.

Plz solve within 30min I vill give definitely upvote and vill give positive feedback thank you

The answer should be: Total Mech Adv ~ 6.3635; e.g., 30 x 6.3635 ~ 191 lbf out

Distilled water at 10deg C stands in a glass tube of 9.0 mm diameter at a height of 24.00 mm. What is the true static height in mm if the surface tesnsion is 0.0742 N/m.   a.24 mm b.27.4 mm c.20.6 mm d.3.4 mm

Please answer it in 1hr. thermodynamics-Work and Heat SHOW SOLUTION STEP BY STEP.

Please help. Written on paper not typed on computer or keyboard please. Need help on both questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.

Needs Complete typed solution with 100 % accuracy.

1) A shaft is loaded in bending and torsion such that Ma = 70 N-m, Ta = 45 N-m, Mm = 55 N-m, and Tm = 35 N-m. For the shaft, Sut = 700 MPa and Sy = 560 MPa. A fully corrected Se = 210 MPa is assumed. Let K; = 2.2 and Kfs = 1.8. With a design safety factor of 2.0, determine the minimum acceptable diameter of the shaft using: a. DE-Modified Goodman criterion b. DE-ASME Elliptic criterion C. DE-Gerber criterion

A rigid pavement on a new interstate (3 lanes each direction) has been conservatively designed with a 12- inch slab, an Ec of 5.5 x 10 Ib/in? , a concrete modulus of rupture of 700 lb/in?, a load transfer coefficient of 3.0, an initial present serviceability index of 4.5, and a terminal serviceability index of 2.5. The overall standard deviation is 0.35, the subgrade CBR is 25, and the drainage coefficient is 0.9. The pavement was designed for 600 30-kip tandem axles per day and 1400 20-kip single axle loads per day. If the desired reliability was 90%, how long was this pavement designed to last? A 46 B 42 18 D) 37