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1. Consider the two waveforms f(t) and g(t) shown in the figures below. (a) Characterize both...
Please show full solution and explanation Consider the following two functions h (t) and f (t)....
Please show full solution and explanation
Consider the following two functions h (t) and f (t).
and
(a) Plot h(t) and f(t).
(b)Use the convolution integral to calculate the convolution g
(t) of the function h (t) with f (t) and plot.
So if t > 0 h(t) = 1 et if t > 0 Ji if 0 <t<T f(t) = 10 if otherwise
f. The amplitude of a cosine can be observed at the origin (t=0) when there is...
f. The amplitude of a cosine can be observed at the origin (t=0) when there is no phase shift. Find a simplified solution for the convolution integral below for t=0. +∞ output(t) = h(t)∗ s(t) = −∞ 3 rect(3x) cos(2π f0 (t − x)) dx Hint: Set t=0, sketch the situation to help set up the integral and remember the properties of odd and even functions to simply the calculation. g. The above result gives a general expression for the...
f. The amplitude of a cosine can be observed at the origin (t=0) when there is no phase shift. Find a simplified solutio...
f. The amplitude of a cosine can be observed at the origin (t=0) when there is no phase shift. Find a simplified solution for the convolution integral below for t=0. +∞ output(t) = h(t)∗ s(t) = −∞ 3 rect(3x) cos(2π f0 (t − x)) dx Hint: Set t=0, sketch the situation to help set up the integral and remember the properties of odd and even functions to simply the calculation. g. The above result gives a general expression for the...
Problem Thre: 125 points) Consider the following initial value problem: dy-2y+ t The y(0) -1 ea dt ical solution of the differential equation is: y(O)(2-2t+3e-2+1)y fr exoc the differential equat...
Problem Thre: 125 points) Consider the following initial value problem: dy-2y+ t The y(0) -1 ea dt ical solution of the differential equation is: y(O)(2-2t+3e-2+1)y fr exoc the differential equation numerically over the interval 0 s i s 2.0 and a step size h At 0.5.A Apply the following Runge-Kutta methods for each of the step. (show your calculations) i. [0.0 0.5: Euler method ii. [0.5 1.0]: Heun method. ii. [1.0 1.5): Midpoint method. iv. [1.5 2.0): 4h RK method...
(1 point) The functions f(t) and g(t) are shown below. 11.0 f(t) g(t) If the motion...
(1 point) The functions f(t) and g(t) are shown below. 11.0 f(t) g(t) If the motion of a particle whose position at time t is given by z = f(t), y = g(t), sketch a graph of the resulting motion and use your graph to answer the following questions: (a) The slope of the graph at (0.25, 0.5) is 6 (enter undef if the slope is not defined) (b) At this point the particle is moving to the right and...
Create chart or table Consider the system with the impulse response ht)e u(t), as shown in Figure...
Create chart or table Consider the system with the impulse response ht)e u(t), as shown in Figure 3.2(a). This system's response to an input of x(t) 1) would be y(t) h(r ult 1). as shown in Figure 3.2(b). If the input signal is a sum of weighted, time-shifted impulses as described by (3.10), separated in time by Δ = 0.1 (s) so that xt)01-0.1k), as shown in Figure 3.2(c), then, according to (3.11), the output is This output signal is...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t)...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t) x(t) The input to this circuit is given as x(t) s(t)+ny (t), where the noise component of input, n(t), is a sample function realization of white noise process with an autocorrelation function given by Rpx(t) 8(T), and s (t) cos(6Tt) is the signal component of input. IS(fOI df, where S( a. Find the power of the signal component of input, Ps is the Fourier...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t)...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t) x(t) The input to this circuit is given as x(t) s(t)+ny (t), where the noise component of input, n(t), is a sample function realization of white noise process with an autocorrelation function given by Rpx(t) 8(T), and s (t) cos(6Tt) is the signal component of input. IS(fOI df, where S( a. Find the power of the signal component of input, Ps is the Fourier...
The plot below displays the velocity as a function of time for two physics students, Alan...
The plot below displays the velocity as a function of time for
two physics students, Alan and Betty, for 10 seconds after a
stopwatch is started at time t = 0. Alan and Betty are both
initially standing at the same position, defined as
x = 0, and subsequently move along a straight line that we
define as our x-axis. The plot for Betty’s velocity as a function
of time vB(t) is itself a straight line while the plot for...
The plot below displays the velocity as a function of time for two physics students, Alan...
The plot below displays the velocity as a function of time for two physics students, Alan and Betty, for 10 seconds after a stopwatch is started at time0. Alan and Betty are both initially standing at the same position, defined as x -0, and subsequently move along a straight line that we define as our x-axis. The plot for Betty's velocity as a function of time vs() is itself a straight line while the plot for Alan is a quadratic...
Please show full solution and explanation
Consider the following two functions h (t) and f (t).
and
(a) Plot h(t) and f(t).
(b)Use the convolution integral to calculate the convolution g
(t) of the function h (t) with f (t) and plot.
So if t > 0 h(t) = 1 et if t > 0 Ji if 0 <t<T f(t) = 10 if otherwise
Problem Thre: 125 points) Consider the following initial value problem: dy-2y+ t The y(0) -1 ea dt ical solution of the differential equation is: y(O)(2-2t+3e-2+1)y fr exoc the differential equation numerically over the interval 0 s i s 2.0 and a step size h At 0.5.A Apply the following Runge-Kutta methods for each of the step. (show your calculations) i. [0.0 0.5: Euler method ii. [0.5 1.0]: Heun method. ii. [1.0 1.5): Midpoint method. iv. [1.5 2.0): 4h RK method...
(1 point) The functions f(t) and g(t) are shown below. 11.0 f(t) g(t) If the motion of a particle whose position at time t is given by z = f(t), y = g(t), sketch a graph of the resulting motion and use your graph to answer the following questions: (a) The slope of the graph at (0.25, 0.5) is 6 (enter undef if the slope is not defined) (b) At this point the particle is moving to the right and...
Create chart or table Consider the system with the impulse response ht)e u(t), as shown in Figure 3.2(a). This system's response to an input of x(t) 1) would be y(t) h(r ult 1). as shown in Figure 3.2(b). If the input signal is a sum of weighted, time-shifted impulses as described by (3.10), separated in time by Δ = 0.1 (s) so that xt)01-0.1k), as shown in Figure 3.2(c), then, according to (3.11), the output is This output signal is...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t) x(t) The input to this circuit is given as x(t) s(t)+ny (t), where the noise component of input, n(t), is a sample function realization of white noise process with an autocorrelation function given by Rpx(t) 8(T), and s (t) cos(6Tt) is the signal component of input. IS(fOI df, where S( a. Find the power of the signal component of input, Ps is the Fourier...
Consider the RC circuit shown below. Assume that R=(0.1)2 and C=(0.1)F 3. R i(t) y (t) x(t) The input to this circuit is given as x(t) s(t)+ny (t), where the noise component of input, n(t), is a sample function realization of white noise process with an autocorrelation function given by Rpx(t) 8(T), and s (t) cos(6Tt) is the signal component of input. IS(fOI df, where S( a. Find the power of the signal component of input, Ps is the Fourier...
The plot below displays the velocity as a function of time for
two physics students, Alan and Betty, for 10 seconds after a
stopwatch is started at time t = 0. Alan and Betty are both
initially standing at the same position, defined as
x = 0, and subsequently move along a straight line that we
define as our x-axis. The plot for Betty’s velocity as a function
of time vB(t) is itself a straight line while the plot for...
The plot below displays the velocity as a function of time for two physics students, Alan and Betty, for 10 seconds after a stopwatch is started at time0. Alan and Betty are both initially standing at the same position, defined as x -0, and subsequently move along a straight line that we define as our x-axis. The plot for Betty's velocity as a function of time vs() is itself a straight line while the plot for Alan is a quadratic...
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