Top View | Mass moves horizontally ml/ y NS Figure 1256
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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 . Grap...
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=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
Lt) Figure 1255 DOK Top Vievw 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 displ...
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...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function of time after the vertically hanging system was set in motion at time t0. Assume that the units of time are seconds, and the units of displacement are centimeters. The first t-intercept is (0.75, 0) and the first minimum has coordinates (1.25,-1) (a) What is the period T of the periodic motion? seconds (b) What is the frequency f in Hertz? What is the...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function of time after the vertically hanging system was set in motion at time t= 0. Assume that the units of time are seconds, and the units of displacement are centimeters. The first t-intercept is (0.75, 0) and the first maximum has coordinates (1.25, 4). (a) What is the period T = of the periodic motion? seconds (b) What is the frequency f in Hertz?...
. ioins the Equation of motion, displacement Y is the function of time, time t is...
. ioins the Equation of motion, displacement Y is the function of time, time t is variable, for a given time t, there is A function value Y is corresponding to. Velocity V is first derivative of displacement Y, time is variable. for a given time t, there is a function value V is corresponding to. 5) Tabulating and plotting: (30 points), for a shouting up from a building problem, ye 49t2 1st.50, Y(t) 50 55.743? 44.2570 0 1.531? 0...
6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy" 10y' +...
6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy" 10y' + 8y = 100 cos 3t + 4et assuming that the mass is released from rest at the equilibrium position. (This forcing function is not very realistic.) (b) Assume the equation from part (a) describes a mass-spring-dashpot system with a dashpot containing honey. Imagine that the honey is changed...
a-d please 6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy"...
a-d please
6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy" 10y' + 8y = 100 cos 3t + 4et assuming that the mass is released from rest at the equilibrium position. (This forcing function is not very realistic.) (b) Assume the equation from part (a) describes a mass-spring-dashpot system with a dashpot containing honey. Imagine that the honey...
A mass of m kilograams (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to the mass is fixced to the ground. The mass moves vertic...
A mass of m kilograams (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to the mass is fixced to the ground. The mass moves vertically up and down, acted on by gravity, the restoring force T of the spring and the damping force R due to friction: see the diagram below The gravitational force is mg dowswards, where g- 9.8m is acceleration due to gravity, measured...
I need help with these! 3. (1 point) a) Compute the general solution of the differential equation y"5 12y" 0 b) Determine the test function Y (t) with the fewest terms to be used to obtain...
I need help with these!
3. (1 point) a) Compute the general solution of the differential equation y"5 12y" 0 b) Determine the test function Y (t) with the fewest terms to be used to obtain a particular solution of the following equation via the method if undetermined coefficients. Do not attempt to determine the coefficients.5y 12y"2 10e-tesin(V3t) Spring 2011) 4. (1 point) Compute the general solution of the following differential equations dz dy dt ii)(1y iv) (z cos(y) +...
e) y_3cos(x +4) +4 MaxMinAmp riod f y 5 cos 2n(x -0.5)+5 V.T Max Amp Min AC SİNE function has a maximu m value o...
e) y_3cos(x +4) +4 MaxMinAmp riod f y 5 cos 2n(x -0.5)+5 V.T Max Amp Min AC SİNE function has a maximu m value of 4, aminimum value of 2, a phase shift of 1 rad to the right, and a period of 4. Write an equation for the function and graph the function [KU, 6m] 2. Min _Armp period. P.S V.T. . Equation 3. Determine the equation for the following a) COSINE function Equation b) SINE function Equation 4....
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...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function of time after the vertically hanging system was set in motion at time t0. Assume that the units of time are seconds, and the units of displacement are centimeters. The first t-intercept is (0.75, 0) and the first minimum has coordinates (1.25,-1) (a) What is the period T of the periodic motion? seconds (b) What is the frequency f in Hertz? What is the...
(1 point) The graph shows the displacement from equilibrium of a mass-spring system as a function of time after the vertically hanging system was set in motion at time t= 0. Assume that the units of time are seconds, and the units of displacement are centimeters. The first t-intercept is (0.75, 0) and the first maximum has coordinates (1.25, 4). (a) What is the period T = of the periodic motion? seconds (b) What is the frequency f in Hertz?...
. ioins the Equation of motion, displacement Y is the function of time, time t is variable, for a given time t, there is A function value Y is corresponding to. Velocity V is first derivative of displacement Y, time is variable. for a given time t, there is a function value V is corresponding to. 5) Tabulating and plotting: (30 points), for a shouting up from a building problem, ye 49t2 1st.50, Y(t) 50 55.743? 44.2570 0 1.531? 0...
6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy" 10y' + 8y = 100 cos 3t + 4et assuming that the mass is released from rest at the equilibrium position. (This forcing function is not very realistic.) (b) Assume the equation from part (a) describes a mass-spring-dashpot system with a dashpot containing honey. Imagine that the honey is changed...
a-d please
6 (10) Spring Problems: (a) Find the displacement, y(t), (in arbitrary units) as a function of time for the mass in a mass-spring system described by the differential equatiorn Zy" 10y' + 8y = 100 cos 3t + 4et assuming that the mass is released from rest at the equilibrium position. (This forcing function is not very realistic.) (b) Assume the equation from part (a) describes a mass-spring-dashpot system with a dashpot containing honey. Imagine that the honey...
A mass of m kilograams (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to the mass is fixced to the ground. The mass moves vertically up and down, acted on by gravity, the restoring force T of the spring and the damping force R due to friction: see the diagram below The gravitational force is mg dowswards, where g- 9.8m is acceleration due to gravity, measured...
I need help with these!
3. (1 point) a) Compute the general solution of the differential equation y"5 12y" 0 b) Determine the test function Y (t) with the fewest terms to be used to obtain a particular solution of the following equation via the method if undetermined coefficients. Do not attempt to determine the coefficients.5y 12y"2 10e-tesin(V3t) Spring 2011) 4. (1 point) Compute the general solution of the following differential equations dz dy dt ii)(1y iv) (z cos(y) +...
e) y_3cos(x +4) +4 MaxMinAmp riod f y 5 cos 2n(x -0.5)+5 V.T Max Amp Min AC SİNE function has a maximu m value of 4, aminimum value of 2, a phase shift of 1 rad to the right, and a period of 4. Write an equation for the function and graph the function [KU, 6m] 2. Min _Armp period. P.S V.T. . Equation 3. Determine the equation for the following a) COSINE function Equation b) SINE function Equation 4....
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