1 1 Application Of Differential Equations For Particle Motion Under Constant Value Forces An Object Of Mass M Moves From 1 (26.72 KiB) Viewed 38 times
1.1 APPLICATION OF DIFFERENTIAL EQUATIONS FOR PARTICLE MOTION UNDER CONSTANT VALUE FORCES An object of mass m moves from position A along AB = 1 surface (in some problems under angle a) during t seconds (Figures 1.1 - 1.6). Initial velocity is V4. Coefficient of friction is Ilg. At position B the object leaves the surface with velocity V3 and lands at point C with velocity Vc. During the time I the object travels from B to C. P is the engine force moving the motorcycle along AB in problems 11-15. All resistance forces are ignored in problems 11-15. Find the parameters marked with “?" in Table 1.1. Additionally, in problems 2, 10 and 22 find the equation of the trajectory y = f(x) during the motion from point B to C.
No T T Hx 1 h d B VB VC P 111 Figure a No. deg m/s s S 111 111 m deg m's m/s kN kg
28 6 ? ? 0.3 3 5
X1 VB B A X X1 h Y1 d у Figure 1.6
Join a community of subject matter experts. Register for FREE to view solutions, replies, and use search function. Request answer by replying!