6 ft 6 ft 6 ft 400 lb 400 lb 400 lb 400 lb 400 lb F 200 lb 200 lb D I G 9 ft B K A L C E H 3 ft 9 ft ft→ 9 ft -9ft- 6 ft 6 ft 6 ft
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7: Determine the force in members FI, GI, & GJ using method of sections. State whether each member is in tension or compression. Complete fbd.
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- Q1: A rotating shaft carries four masses A, B, C, and D radially attached to it. The centers of mass are at 40 mm, 46 mm, 49 mm, and 43 mm respectively from the axis of rotation, A, C and D are 7.5 kg, 5 kg, and 4 kg; the axial distance between A and B is 400 mm and that between B and C is 500 mm, the eccentricities of A and C are at 90o to one another. For complete balance, find 1- The angle between A, B, and D 2- The axial distance between the planes of revolution of C and D. 3- The mass BDamian’s car weighs 2000kg. The spring has a natural unstretched length of 2m and a spring constant of k = 80000N/m. Hooke's law can be written as T = kd. Where T is the tension force in newtons, k is the spring constant and d is the length in metres. Let x(t) be the position of the front of Damian’s car and let y(t) be the position of the back of Eva’s 4WD. We will assume that the position of Eva’s car is a known function of time. Q1 a) Create a sketch of the positions of the vehicles similar to the one given and add the positions x and y. b) What is the extension of the spring in terms of x(t) and y(t)? Be careful to take into account that the unstretched length of the spring is 2m.None
- • M 4 P 1::"E d) none of the mentioned أخری: When a body A is in thermal equilibrium with a body B, and also separately with a body C, then B and C will be in thermal .equilibrium with each other True False أخرى The magnitude of mechanical work is the a) product of the force and distance travelled perpendicular to the force b) product of the force and distance travelled parallel to the force c) sum of the force and distance travelled perpendicular to the force d) sum of the force and distance travelled parallel to the force أخری Work done by a system is taken to be IIUnder some circumstances when two parallel springs, with constants k₁ and k2, support a single mass, the effective spring constant of the system is given by k = 4k1k₂/(k₁ + k₂). A mass weighing 20 pounds stretches one spring 4 inches and another spring 2 inches. The springs are attached to a common rigid support and then to a metal plate. As shown in the figure, the mass is attached to the center of the plate in the double-spring arrangement. k₂ II k = 20 lb Determine the effective spring constant of this system. lb/ft Find the equation of motion x(t) if the mass is initially released from the equilibrium position with a downward velocity of 6 ft/s. (Use g for the acceleration due to gravity.) 32 ft/s² x(t) = ftA husband and wife take turns pulling their child in a wagon along a horizontal sidewalk. Each exert a constant force pulls the wagon through the same displacement. They do the same amount of work,but the husband's pulling force is directed 58grades above the horizontal , and the wife's pulling force is directed 38 grades above the horizontal. the husband pulls with a force whose magnitude is 67N. WHat is the magnitude of the pulling force exerted by his wife? 1)sketch of the problem including everything? 2) 3 laws and principle in this problem?
- Part A: Q1 to Q4 Vc 0.9 m Figure 1 VB 2.4 m 1.2 m B 12 VA 15 m 1.2 m AIn the graph the force versus displacement of a spring is given (the spring is shown in a separate figure--see below). The x-axis range is ±2 cm. The y-axis range is tFs, where Fs = 220 N. How much work does the spring do on the block (the mass "m") when the block moves from x₁ = 7.6 cm to 4.3 cm? W J y F. X -1.5 -0.5 0 10.5 1 1.5 -F How much work does the spring do on the block (the mass "m") when the block moves from x; = 7.6 cm to -7.6 cm? W = Question Help: Read Submit Question m*For questions a) and b), you must answer directly on the graph on the next page when required to do so (figure 2.2)* You must pump 5°C water from a large open-air reservoir to another at a rhythm of 1 1/s. The pipe linking both reservoirs is one inch in diameter, has a Hazen-Williams coefficient of 140 and measures 1 km (975 m of which are found after the pump displayed on figure 2.1). Singular head loss can be neglected. Based on figures 2.1 and 2.2, you must: a) Select the most adequate pump to complete your project: b) Identify the point of operation (minimum 3 points must be calculated on the pipe characteristic curve); c) Determine if cavitation could be an issue. N.B. presume atmospheric pressure to be 101.3 kPa. 6 m Figure 2.1 Pump configuration P 2 m 15 m
- B3None1. A link is exposed to 2 F1= 621 N and F2= 795 N force. Determine the magnitude and direction of the Resultant force. 2. Determine the length of the AC wire needed to hold the lamp with the lamp weight = 5 kg, in the image position as below. The length of the spring is 0.4 m and the spring stiffness is 300 N / m. g = 9.81 m / s^2