A torque T is applied to two tubes with the cross-sections shown. Assuming the same shear...

(a) Two separate direct shear tests were conducted on soil samples with the shear box having...

(a) Two separate direct shear tests were conducted on soil samples with the shear box having dimensions of 80 mm × 80 mm on plan view. Assuming this cross-sectional area remains unchanged, determine the cohesion intercept (c’) and friction angle (φ’) of the soil based on the following results obtained at failure. Direct shear test results Test Normal force (N) Shear force (N) 1 210 257 2 360 372 (b) A CU triaxial test was conducted on a specimen of...

Two steel rods each of cross sectional area 500mm2, and an aluminium alloy rod, of cross...

Two steel rods each of cross sectional area 500mm2, and an aluminium alloy rod, of cross sectional area 600 mm2 are cut to a length of 3m and attached to rigid end plates to form a composite member. If a tensile force of 100kN is applied to the member and at the same tie the temperature of the system is lowered by 20℃, determine the force developed in each of the rods and the extension of the member. What further...

WITH COMPLETE SOLUTION A welded steel girder having the cross section of two fabricated 280 mm...

WITH COMPLETE SOLUTION A welded steel girder having the cross section of two fabricated 280 mm x 25 mm flange and a 600 mm x 15 mm web plate. The plates are joined by four fillet welds that run continuously for the length of the 6 m span girder. Each weld has an allowable load of 330 kN/m. 1.Determine the maximum allowable shear force V for the girder in kN. 2. Calculate the maximum bending stress of the girder if...

2. An article reports a comparison of several methods for predicting the shear strength for steel...

2. An article reports a comparison of several methods for predicting the shear strength for steel plate girders. Data for two of these methods, the Karlsruhe and Lehigh procedures, when applied to six specific girders, are shown in the following table. We wish to determine whether there is any difference (on the average) between the two methods. Use the paired t-test. Girder Karlsruhe Lehigh S1/1 1.186 1.061 S2/1 1.151 0.992 S3/1 1.322 1.063 S4/1 1.339 1.062 S5/1 1.2 1.065 S2/1...

Two tightly wound solenoids have the same length and circular cross-sectional area. But solenoid 1 uses...

Two tightly wound solenoids have the same length and circular cross-sectional area. But solenoid 1 uses wire that is 2.0 times as thick as solenoid 2. What is the ratio of their inductances? What is the ratio of their inductive time constants (assuming no other resistance in the circuits)?

Determine the ratio of blood flow between two blood vessels assuming that the voltage is the...

Determine the ratio of blood flow between two blood vessels assuming that the voltage is the same from identical magnetic flow probes and the ratio of the vessel diameters is 1:5. Assume uniform magnetic fields across both vessels

Assuming that each of the 5 squares usually counted on the hemocytometer contains the exact same...

Assuming that each of the 5 squares usually counted on the hemocytometer contains the exact same number of cells counted in the single square shown, determine the stock culture concentration in exponential form. The stock culture was then diluted to a final concentration of 1000 cells/mL. a) Calculate the stock culture concentration and the total dilution factor. Show your formula and equations. b) Illustrate how to dilute the stock culture to the final concentration in Word. Include in your illustration...

Two flasks have the same gas at the same initial temperature T and pressure P. The...

Two flasks have the same gas at the same initial temperature T and pressure P. The volume V1 of the flask #1 is much bigger than the volume V2 of the second flask (V1>V2). The flasks are connected by a narrow glass tube which has a drop of liquid mercury. Because the pressure in each flask is the same, the drop of mercury is at equilibrium exactly in the middle of the glass tube. Would the drop of mercury move...

The drawing shows two identical systems of objects; each consists of the same three small balls...

The drawing shows two identical systems of objects; each consists of the same three small balls connected by massless rods. In both systems the axis is perpendicular to the page, but it is located at a different place, as shown. The same force of magnitude F is applied to the same ball in each system (see the drawing). The masses of the balls are m1 = 9.4 kg, m2 = 6.9 kg, and m3 = 7.2 kg. The magnitude of...

The drawing shows two identical systems of objects; each consists of the same three small balls...

The drawing shows two identical systems of objects; each consists of the same three small balls connected by massless rods. In both systems the axis is perpendicular to the page, but it is located at a different place, as shown. The same force of magnitude F is applied to the same ball in each system (see the drawing). The masses of the balls are m1 = 8.2 kg, m2 = 5.3 kg, and m3 = 7.7 kg. The magnitude of...