m da 4,2 length (mm) m> mass (kg) © ample 1) d diameter of cable 1...
P1 1200 900 90 P. P di, da L1, L2 E, E₂ Force (N) Diameter (mm) Length (mm) Young's Malulus (Geo) 100 200 210 - - Area section 1 is.... mm2 Area section 2 is ... mm2 A 113.09 8.7854 C. 300 - Internal force at section 1 is.N D..900 - Internal force at section 2 is....N . deflection at rod 1 is.....mm . . deflection at rod 2 is....mm . deflection total is.....mm Internal stress in section 1 is...
Q7 (a): For the problem above, determine the equivalent stiffness of the cable (spring constant) in N/m. 100 kg, l1-27 m, 12-27.070 m, x0 -27 mm, Take m Initial velocity, xo 36 mm/s QUESTION 9 Q7 (b): For the above problem, determine the amplitude of the vibration response of the given system, .in mm. n-31.321 rad/s. Take x0-30 m m. Initial velocity, xo-24 mm's and Q7 (a): For the problem above, determine the equivalent stiffness of the cable (spring constant)...
1. A fin with a diameter of 5 mm, a length of 100 mm, and a thermal conductivity of 133 w/m.oC is attached to a base plate, which is at 200 oC. The fin is surrounded by a fluid at 200 C, and has a convection heat transfer coefficient of 30 W/(m·℃). 1.1 compute the temperature of the rod at 20 mm, 60 mm, and 100 mm points from the base 1.2 compute the total heat transfer rate from the...
1. A fin with a diameter of 5 mm, a length of 100 mm, and a thermal conductivity of 133 w/m"C is attached to a base plate, which is at 200 oC. The fin is surrounded by a fluid at 20 ° C, and has a convection heat transfer coefficient of 30 W/(m2. c). 1.1 compute the temperature of the rod at 20 mm, 60 mm, and 100 mm points from the base 1.2 compute the total heat transfer rate...
A steel (density 7.86 x 103 kg/m3) wire of length 1.20 m and diameter 0.644 mm is subjected to a tension of 34.5 N. At one end of the wire is an oscillator harmonically oscillating one end of the wire at a frequency of 60 Hz, the other end of the wire runs over a pulley to a hanging mass that supplies the tension.What is the wavelength of the waves produced by the oscillator?
A 10.0-m long steel cable needs to be able to support a mass of 96 kg without stretching more than 0.50 cm. Determine the necessary diameter of the cable. The elastic modulus of steel is 200 x 109 Pa. [3.5 mm] A hollow aluminum cylinder has a volume of 2.500 L at 30.00°C. It is completely filled with acetone at the same temperature. The combination is slowly warmed to a new temperature of 80.00°C. Some of the acetone overflows, and...
7. A solid sphere of copper ( 8940 kg/m') with a radius of 5.0 cm has a mass of a) 45 9 kg b) 6.78 kg c) 25.7 kg d) 4.68 kg (10 pts) The pressure at the bottom of a 76-cm high column of mercury (p = 13,550 kg/m) is a) 0.010 kPa b) 101 kPa c) 10.1 kPa d) 0.101 kPa (10 pts) 9. Anaxial force of 20 kN acts on a 1.50-cm diameter rod. The axial stress...
9. A truss and a steel cable are supporting a mass of m = 20 kg as shown. A cable is supported by a frictionless pulley at point B for L = 500 m, d = 200 m, and h = 300 m. (a) (2 marks) Draw a free-body diagram and show all forces that act on this structure (b) (1 mark) Find the magnitude of the tension force in the steel cable, (c) (3 marks) Find the x and...
Problem 2 Figure 1 PO stillin An object of mass 10 kg (m) is lifred and lowered through a vertical distance of 2.0m using a power screw similar to that of Figure I. Parameters are : Thread angle B: 30° Pitch diameter dp: 8.0 cm lead (pitch) P: 5.0 mm Frictional coef' h 0.2 Determine a) lead angle Trad & deg! b) normal angle (radd dey) c) torque to lift Tp (Nm) d) torque to lower Tu e) work done...
1 m Mm F Sl. In the mechanism shown the circular body with the mass moment of inertia I about 0. i.e. the center of gravity of the body, rotates about O. The T shaped body with the mass m is attached to that circular k body through the joint A such that OA = r. and it translates along the horizontal direction. The linear spring with stiffness k is placed between the T shaped body and the ground such...