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PROB. #2= (30%) À 34STEM WITH A W= 2015; K= 500lb, 5=0.5 AND ZERO INITIAL CONDITIONS...
A SYSTEM WITH A W= 2016 WITH A We 2015; K= 500lb/n , {=0.15 AND ZERO...
A SYSTEM WITH A W= 2016 WITH A We 2015; K= 500lb/n , {=0.15 AND ZERO INITIAL CONDITIONS is SUBJECTED TO THE FORCING FUNCTION ShowN BELOW: F(t) 2506 t EVALUATE THE DISPLACEMENT @ t. 31
PROB.#2: (30%) A SYSTEM WITH A W= 2016; k= soolb/on, 5= 0.15 AND ZERO INITIAL CONDITIONS...
PROB.#2: (30%) A SYSTEM WITH A W= 2016; k= soolb/on, 5= 0.15 AND ZERO INITIAL CONDITIONS IS SUBJECTED TO THE FORCING FUNCTION Shown Below: F(t) 2506 t EVALUATE THE DISPLACEMENT @t: 31
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 ...
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force F(t)-P, . cos(ω·) [lb] 0.5 in. 100 in. where the amplitude of harmonic force is Fo=50 lb and its angular frequency: ω-62832 radl s Model the system as a simple spring and mass system in the horizontal plane....
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 ...
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force Ft)-Fo.t) ibl. 0.5 in. Fio),x(t) 100 in. where the amplitude of harmonic force is F俨50 lh and its angular frequency: 62.832 radls Model the system as a simple spring and mass system in the horizontal plane. The mass...
Problem 2 (25 points): Consider an undamped single-degree-of-freedom system with k = 10 N/m, 41 =...
Problem 2 (25 points): Consider an undamped single-degree-of-freedom system with k = 10 N/m, 41 = 10 N 92 = 8N, and m = 10 kg subjected to the harmonic force f(t) = qı sin(vt) + 92 cos(vt), v = 1 rad/ sec. Assume zero initial conditions (0) = 0 and c(0) = 0. Derive and plot the analytical solution of the displacement of the system. mm m = f(t) WWWWWWWW No friction Problem 2 Problem 3 (30 points): Using...
time is 0 with an initial ccw angular velocity of w0 = 0.5 rad/sec. The bar...
time is 0 with an initial ccw angular velocity of w0 = 0.5 rad/sec.
The bar shown is rotating around a fixed point O with an angular
acceleration a=k/w^4 with the constant k = 150 sec^-6 (units are
rad/sec^2)
once the bar reaches an angular velocity of w=5 rad/sec
counterclock wise, the angular displacement of the bar from its
initial angular position is approximately
time t which the bar is rotating with an angular velocity of
w= 5 rad/sec CCW...
Q2 2. Assuming zero initial conditions, let R = 200 ?, and C = 0.001 F...
Q2
2. Assuming zero initial conditions, let R = 200 ?, and C = 0.001 F in the ideal Op-Amp circuit below. v, (t) vo(t) Wtih vi(t) the voltage waveform below, plot vo(t) over 0sts 15 v,t) t-8 14 r-04
1.7-3 For a certain LTI system with the input f(t), the output y(t) and the two initial conditions (0) and 2(0), follow...
1.7-3 For a certain LTI system with the input f(t), the output y(t) and the two initial conditions (0) and 2(0), following observations were made 1(0) z2(0) eu(t) e(3+2)u(t) 2u(t) 0 0 (t) Determine v(t) when both the initial conditions are zero and the input f(t) is as shown in Fig. P1.7-3. Hint: There are three causes: the input and each of the two initial conditions. Because of linearity property, if a cause is increased by a factor k, the...
3) Consider the system depicted below xz Input: F. Output: x Assume that all initial conditions a...
3) Consider the system depicted below xz Input: F. Output: x Assume that all initial conditions are zero. a) Derive mathematical model of the system b Find unit step response c) Find the transfer function T(s) X2(s)/Fs) d) What is the final value of the output be. limx)-7) for F)- 4) Find the transfer function state space R(s) for each of the following sytems represented in a) 10 y-[1 0 0 b) 2 -3-8 3 -5 y-1 3 6 c)...
Question: given a differential equation: a. initial conditions for the plan and input are zero, ...
Question:
given a differential equation:
a. initial conditions for the plan and input are zero, derive
plan's transfer function in Laplace transform
b. using inverse Laplace transform, find the solution for the
differential equation for the plan (find function y(t)).
c. derive state-space model of the plan
d. Assume open-loop system with no controller added to the
plant, analyse the steady-state value of the system using final
value theorem and step input
e. Calculate value of the overshoot, rise time...
A SYSTEM WITH A W= 2016 WITH A We 2015; K= 500lb/n , {=0.15 AND ZERO INITIAL CONDITIONS is SUBJECTED TO THE FORCING FUNCTION ShowN BELOW: F(t) 2506 t EVALUATE THE DISPLACEMENT @ t. 31
PROB.#2: (30%) A SYSTEM WITH A W= 2016; k= soolb/on, 5= 0.15 AND ZERO INITIAL CONDITIONS IS SUBJECTED TO THE FORCING FUNCTION Shown Below: F(t) 2506 t EVALUATE THE DISPLACEMENT @t: 31
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force F(t)-P, . cos(ω·) [lb] 0.5 in. 100 in. where the amplitude of harmonic force is Fo=50 lb and its angular frequency: ω-62832 radl s Model the system as a simple spring and mass system in the horizontal plane....
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force Ft)-Fo.t) ibl. 0.5 in. Fio),x(t) 100 in. where the amplitude of harmonic force is F俨50 lh and its angular frequency: 62.832 radls Model the system as a simple spring and mass system in the horizontal plane. The mass...
Problem 2 (25 points): Consider an undamped single-degree-of-freedom system with k = 10 N/m, 41 = 10 N 92 = 8N, and m = 10 kg subjected to the harmonic force f(t) = qı sin(vt) + 92 cos(vt), v = 1 rad/ sec. Assume zero initial conditions (0) = 0 and c(0) = 0. Derive and plot the analytical solution of the displacement of the system. mm m = f(t) WWWWWWWW No friction Problem 2 Problem 3 (30 points): Using...
time is 0 with an initial ccw angular velocity of w0 = 0.5 rad/sec.
The bar shown is rotating around a fixed point O with an angular
acceleration a=k/w^4 with the constant k = 150 sec^-6 (units are
rad/sec^2)
once the bar reaches an angular velocity of w=5 rad/sec
counterclock wise, the angular displacement of the bar from its
initial angular position is approximately
time t which the bar is rotating with an angular velocity of
w= 5 rad/sec CCW...
Q2
2. Assuming zero initial conditions, let R = 200 ?, and C = 0.001 F in the ideal Op-Amp circuit below. v, (t) vo(t) Wtih vi(t) the voltage waveform below, plot vo(t) over 0sts 15 v,t) t-8 14 r-04
1.7-3 For a certain LTI system with the input f(t), the output y(t) and the two initial conditions (0) and 2(0), following observations were made 1(0) z2(0) eu(t) e(3+2)u(t) 2u(t) 0 0 (t) Determine v(t) when both the initial conditions are zero and the input f(t) is as shown in Fig. P1.7-3. Hint: There are three causes: the input and each of the two initial conditions. Because of linearity property, if a cause is increased by a factor k, the...
3) Consider the system depicted below xz Input: F. Output: x Assume that all initial conditions are zero. a) Derive mathematical model of the system b Find unit step response c) Find the transfer function T(s) X2(s)/Fs) d) What is the final value of the output be. limx)-7) for F)- 4) Find the transfer function state space R(s) for each of the following sytems represented in a) 10 y-[1 0 0 b) 2 -3-8 3 -5 y-1 3 6 c)...
Question:
given a differential equation:
a. initial conditions for the plan and input are zero, derive
plan's transfer function in Laplace transform
b. using inverse Laplace transform, find the solution for the
differential equation for the plan (find function y(t)).
c. derive state-space model of the plan
d. Assume open-loop system with no controller added to the
plant, analyse the steady-state value of the system using final
value theorem and step input
e. Calculate value of the overshoot, rise time...
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