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The plot below shows the input (solid line) and output (dashed line) of a linear system being excited with a sine wave. The horizontal axis is time in seconds. 3 2 I- Input Output -2 2 1.2 1.4 1....
3. The input and output corresponding to the steady (vibratory) response of a first order system...
3. The input and output corresponding to the steady (vibratory) response of a first order system have been recorded below. (a) Use the phase difference to find the time constant of the system. (b) Use the magnitude ratio between both curves to find the time constant of the system and compare your answer to that of part (a) if the equation is known to be ai + bx = Csin(wt) where the input is Csin(wt), the output is x, and...
PLEASE ANSWER BOTH AND SHOW ALL WORK 2. The diagram next page shows a wavelength squared (m2) vs tension (N) plot for a stressed string ; similar to what you have done in lab 9. 1.4 1.2 y:0.5323x+...
PLEASE ANSWER BOTH AND SHOW ALL WORK
2. The diagram next page shows a wavelength squared (m2) vs tension (N) plot for a stressed string ; similar to what you have done in lab 9. 1.4 1.2 y:0.5323x+0.009 R2 = 0.9966 0.8 0.6 0.4 0.2 0 0.5 1.5 2.5 1) Complete the diagram above by putting correct axes titles with proper units. (2) Il) If the string has a mass of 2.88 grams per 700 cm, what is the frequency...
3. (10pts) Consider the follow population curves that are solutions for the worm-robins from a predictor-prey system 1.8 1.6 1.4 1.2 Rabins 05 1 15 2 3 0.8 0.6 0.4 0.2 2 2.4S Problem 3 10 15 25 T...
3. (10pts) Consider the follow population curves that are solutions for the worm-robins from a predictor-prey system 1.8 1.6 1.4 1.2 Rabins 05 1 15 2 3 0.8 0.6 0.4 0.2 2 2.4S Problem 3 10 15 25 Time t (a) There are two trajectories drawn on the left. Which one seems to correspond to the solutions? Indicate the initial point and its moving direction. Explain. the rate of population of either warm or robins is zero. system to complete...
Quantitatively compare the coefficients to what you expect from your frequency equation (i.e. by the harmonic...
Quantitatively compare the coefficients to what you
expect from your frequency equation (i.e. by the harmonic number,
linear mass density of the cord and its length)
Length of the cord is 0.39m, Calculated mass/length
(kg/m) is 0.004, mass of the cord is 0.0016kg, harmonic was 3
through the entire experiment
Signal Generator [Table tite here ] ▼ 850 Output 1 Set ◆ Set Run #10 Run # 10 Waveform S weep Type Off Frequency Phase Shift Amplitude Output Frequency (Hz)...
B Frequency Response Modeling Frequency response modeling of a linear system is based on the prem...
Please explain every step as clearly and detailed as
possible.
B Frequency Response Modeling Frequency response modeling of a linear system is based on the premise that the dynamics of a linear system can be recovered from a knowledge of how the system responds to sinusoidal inputs. (This will be made mathematically precise in Theorem 13.) In other words, to determine (or iden- tify) a linear system, all one has to do is observe how the system reacts to sinusoidal...
Question three The figure below shows a unit step response of a second order system. From...
Question three The figure below shows a unit step response of a second order system. From the graph of response find: 1- The rise timet, 2- The peak timet, 3- The maximum overshoot Mp 4- The damped natural frequency w 5. The transfer function. Hence find the damping ratio ζ and the natural frequency ah-Find also the transfer function of the system. r 4 02 15 25 35 45 Question Four For the control system shown in the figure below,...
I am currently trying to figure out the experiment below. Please complete Table 1 with an...
I am currently trying to figure out the experiment below. Please
complete Table 1 with an explanation, I appreciate it thank
you! Promise to give thumbs up!
Introduction The phase differences between the output voltage, the voltage across the inductor, the voltage across the capacitor, and the voltage across the resistor will be examined at resonant frequency. The voltage and phase relationship will also be examined for frequencies above and below resonance. Theory An inductor, a capacitor, and a resistor are...
3. The input and output corresponding to the steady (vibratory) response of a first order system have been recorded below. (a) Use the phase difference to find the time constant of the system. (b) Use the magnitude ratio between both curves to find the time constant of the system and compare your answer to that of part (a) if the equation is known to be ai + bx = Csin(wt) where the input is Csin(wt), the output is x, and...
PLEASE ANSWER BOTH AND SHOW ALL WORK
2. The diagram next page shows a wavelength squared (m2) vs tension (N) plot for a stressed string ; similar to what you have done in lab 9. 1.4 1.2 y:0.5323x+0.009 R2 = 0.9966 0.8 0.6 0.4 0.2 0 0.5 1.5 2.5 1) Complete the diagram above by putting correct axes titles with proper units. (2) Il) If the string has a mass of 2.88 grams per 700 cm, what is the frequency...
3. (10pts) Consider the follow population curves that are solutions for the worm-robins from a predictor-prey system 1.8 1.6 1.4 1.2 Rabins 05 1 15 2 3 0.8 0.6 0.4 0.2 2 2.4S Problem 3 10 15 25 Time t (a) There are two trajectories drawn on the left. Which one seems to correspond to the solutions? Indicate the initial point and its moving direction. Explain. the rate of population of either warm or robins is zero. system to complete...
Quantitatively compare the coefficients to what you
expect from your frequency equation (i.e. by the harmonic number,
linear mass density of the cord and its length)
Length of the cord is 0.39m, Calculated mass/length
(kg/m) is 0.004, mass of the cord is 0.0016kg, harmonic was 3
through the entire experiment
Signal Generator [Table tite here ] ▼ 850 Output 1 Set ◆ Set Run #10 Run # 10 Waveform S weep Type Off Frequency Phase Shift Amplitude Output Frequency (Hz)...
Please explain every step as clearly and detailed as
possible.
B Frequency Response Modeling Frequency response modeling of a linear system is based on the premise that the dynamics of a linear system can be recovered from a knowledge of how the system responds to sinusoidal inputs. (This will be made mathematically precise in Theorem 13.) In other words, to determine (or iden- tify) a linear system, all one has to do is observe how the system reacts to sinusoidal...
Question three The figure below shows a unit step response of a second order system. From the graph of response find: 1- The rise timet, 2- The peak timet, 3- The maximum overshoot Mp 4- The damped natural frequency w 5. The transfer function. Hence find the damping ratio ζ and the natural frequency ah-Find also the transfer function of the system. r 4 02 15 25 35 45 Question Four For the control system shown in the figure below,...
I am currently trying to figure out the experiment below. Please
complete Table 1 with an explanation, I appreciate it thank
you! Promise to give thumbs up!
Introduction The phase differences between the output voltage, the voltage across the inductor, the voltage across the capacitor, and the voltage across the resistor will be examined at resonant frequency. The voltage and phase relationship will also be examined for frequencies above and below resonance. Theory An inductor, a capacitor, and a resistor are...
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