Right after the payment you receive a link to the archive with the solution of the problem in theoretical mechanics K3 B26 (Figure 2, condition 6) of manuals Targ SM 1989 for part-time students of engineering, construction, transport, instrument-specialties of higher education. The task is made in the format word, packed to the archive zip.
Solution of the Task R3 Option 26: Flat mechanism consists of rods 1, 2, 3, 4 and slider B or E (Fig. KZ.0 - K3.7) or bars 1, 2, 3 and slider B and E (Figure . K3.8, K3.9), connected with each other and with fixed bearings O1, O2 hinges; the point D is in the middle of the rod AB. The lengths of the bars are, respectively, l1 = 0,4 m, l1 = 1,2 m, l3 = 1,4 m, l4 = 0,6 m. The position of the mechanism is determined by the angles α, β, γ, φ, θ. The values \u200b\u200bof these angles and other predetermined values \u200b\u200bare listed in Table. ACA (for Figs. 0-4) or in the Table. HSC (for Fig. 5-9); while Table. ACA ω1 and ω4 - constant. Determine the values \u200b\u200bshown in the tables in the columns of "Find." Arc arrows in the figures show how the construction drawing of the mechanism should be postponed corresponding angles: in the course of, or counter-clockwise (for example, the angle γ in Fig. 8 should be deferred from the DB in a clockwise direction, and Fig. 9 - counter-clockwise arrows, and so on. d.). Construction to begin drawing the rod, the direction of which is determined by the angle α; slide with runners for greater clarity to portray as in the example of RS (see. Fig. HSC). Given angular velocity and angular acceleration considered naprav¬lennymi counterclockwise, and set the speed and acceleration vB ab - from B to b (Fig. 5-9).
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