1256) See Fig. 1256. m=1 kg, b=0.80 Newton-second/meter, k=48 Newton/meter. Determine the position of the mass as a function of time. The function begins at t=0 when the mass has an initial displacement of y(0)=0.10 meters. The initial rate is zero: y'(0)=0. Graph the response for 4 time constants, for fewer if appropriate. Show the window values that made the graph (i.e. xmin,xmax,ymin,ymax). Determine G, f, w, and H (all mks units) ans:4
1256) See Fig. 1256. m=1 kg, b=0.80 Newton-second/meter, k=48 Newton/meter. Determine the position of the mass...
1256) See Fig. 1256. m-1 kg, b-o.40 Newton-second/meter, k-41 Newton/meter. Determine the position of the mass as a function of time. The function begins at t-o when the mass has an initial displacement ot y (0)-0.80 meters rate is zero: y' (o)-o. Graph the response for 1 time constant. Show the window values that made the graph t, - Homework Set--q xmin, xmax, ym i n , утах). Determine G, w, and H ( coure 12358 ure 1255 Top View...
Determine the position of the mass as a function of time. The function begins at t-0 when the mass has an initial displacement of y (0)-0.80 meters. The initial rate is zero: y' (0)=0 . Graph the response for 1 time constant. Show the window values that made the graph (i .e. xmin, хтах, ymin, ymax). Determine G, f, w, and H (all mks units) ans : 4 Homework Set-q Top View | Mass moves horizontally ml/ y NS Figure...