prove: part "a.i" and "a.ii"
that is do a full derivation show each step
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prove: part "a.i" and "a.ii"
that is do a full derivation show each step
x(t) 1...
Kindly provide calculation and show each step. Thanks (a) Given the signal x(t) in Figure 2,...
Kindly provide calculation and show each step. Thanks
(a) Given the signal x(t) in Figure 2, sketch the signal for: xit) 12 10 - 2- 0.2 0.4 0.6 2 14 1.6 1.8 2 0.8 Figure 2 i. x(t+2) [4 Marks] ii. x(t/3) [4 Marks] iii. x(2t) [4 Marks] iv. -X(t) [4 Marks] (b) Given the signal x(t) in Figure 3, sketch the signal for x-(2t-2): xit 25 2 1.5 1 0.5 -0.5 0.5 1 1.5 2 2.5 3.5 Figure 3...
please show steps, focus on part b more 1. (23 points) Sampling and Aliasing. (a) Find...
please show steps, focus on part b more
1. (23 points) Sampling and Aliasing. (a) Find the Nyquist sampling rate wn for the given x(t). (Recall that the sampling frequency has to be twice larger than the bandwidth of the signal to recover the signal without loss of information.) i. (5 pts) X(t) = sinc(5000) * cos(7t). ii. (5 pts) r(t) = sin(101) cos(106) iii. (5 pts) (t) = sinc(50000) + cos(56) (b) (8 pts) Let r(t) = sinc(t/h), y(t)...
NOTE: L Answer all questions and sub-questions. Bl. A neat detailed step-by-step answer to earn full...
NOTE: L Answer all questions and sub-questions. Bl. A neat detailed step-by-step answer to earn full credit. i. Partial credit given only if you show intermediate steps. iv. Even if the "final answer" is correct, I will check the steps 1. This question has 5 sub-questions. Answer all of them (35 POINTS) a. Is the following differential equation: i. Linear or non-linear? Why? ii. Time variant or time invariant? Why? b. In the following OP-AMP circuit: Find: HINT: Vacts as...
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse...
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse Laplace transform h() of H(s)-10s+34 (Hint: use the Laplace transform pair for Decaying Sine or Generic Oscillatory Decay.) (b) Draw the corresponding direct form II block diagram of the system described by H(s) and (c) determine the corresponding differential equation. Problem 3: Using the unilateral Laplace transform, solve the following differential equation with the given initial condition: y)+5y(0) 2u), y(0)1 Problem 4: For the...
t = 0 ms (a) (4 marks) A sinusoidal wave moving along a string is shown...
t = 0 ms (a) (4 marks) A sinusoidal wave moving along a string is shown twice in the figure at time t = 0 (top) and time t = 4t (bottom). After At = 4.0 ms, the crest travels d=6.0 cm in the positive x direction. The equation for the wave is in the form 8 mm H HHHx y(x, t) =Ym sin(kx = wt). t = 4 ms What are (i) ym, (ii)k, (iii) w, and (iv) the...
1) In the figure below, a truck is modeled as a 2-DOF system (DOFs: bounce, x(t)...
1) In the figure below, a truck is modeled as a 2-DOF system (DOFs: bounce, x(t) and pitch, 0(t) motion of the truck with respect to its center of gravity, c.g.). i) Determine the EOMs using the free-body diagram provided below (denote the mass of the truck as m and mass moment of inertia wrt to its c.g.as ) = mr? where r is the radius of gyration) ii) Assuming that the influence of unbalanced tires can be modeled as...
need help, convert them like below pic S. OH- t. 10 w. CIO2 2- X. CO24...
need help, convert them like below pic
S. OH- t. 10 w. CIO2 2- X. CO24 y. HSO3 z. CIO, u. HCO3- v. 104 5. Ionic Compounds with Polyatomic lons & Constant Charge lons a. CaCO3 i. potassium hydroxide b. KCIO j. beryllium hydroxide C. CASO k. strontium acetate d. Li2SO3 I. ammonium oxide e. Ag3PO4 m. silver cyanide f. NH,F n. zinc carbonate g. Al(NO2)3 0. aluminum bicarbonate h. Ba(HCO3)2- p. magnesium phosphate b. NiP04 6. Tonic Compounds with...
e.) Find and sketch the PSD of V(t). What does the system in Fig. 1 do? Problem 4 (10 points, Graduate Students Only). Suppose X is a binary random variable, with PIX = ol = 0.8 and PIX = 1] = 0.2. S...
e.) Find and sketch the PSD of V(t). What does the system in Fig. 1 do? Problem 4 (10 points, Graduate Students Only). Suppose X is a binary random variable, with PIX = ol = 0.8 and PIX = 1] = 0.2. Suppose Y is a Gaussian random variable conditioned on X. Specifically, when X 0, py)x (ulz) is a Gaussian distribution with 0 mean and variance σ2. Similarly, when X-1, prix(ylz) Is a Gaussian distribution with mean A (A...
help me with this. Im done with task 1 and on the way to do task...
help me with this. Im done with task 1 and on the way to do task
2. but I don't know how to do it. I attach 2 file function of rksys
and ode45 ( the first is rksys and second is ode 45) . thank for
your help
Consider the spring-mass damper that can be used to model many dynamic systems -- ----- ------- m Applying Newton's Second Law to a free-body diagram of the mass m yields the...
3.2 Periodic trends 1. (0620-5 2012-Paper 1/2-Q21) Which properties of the element titanium, Ti, can be...
3.2 Periodic trends 1. (0620-5 2012-Paper 1/2-Q21) Which properties of the element titanium, Ti, can be predicted from its position in the Periodic Table? forms coloured compounds conducts electricity when solid can be used has low density as a catalyst X A X X Xx 2. (0620-W 2012-Paper 1/1-Q20) The diagram shows an outline of the Periodic Table. U V W X Y Which of the elements U, V, W, X and Y would react together in the ratio of...
Kindly provide calculation and show each step. Thanks
(a) Given the signal x(t) in Figure 2, sketch the signal for: xit) 12 10 - 2- 0.2 0.4 0.6 2 14 1.6 1.8 2 0.8 Figure 2 i. x(t+2) [4 Marks] ii. x(t/3) [4 Marks] iii. x(2t) [4 Marks] iv. -X(t) [4 Marks] (b) Given the signal x(t) in Figure 3, sketch the signal for x-(2t-2): xit 25 2 1.5 1 0.5 -0.5 0.5 1 1.5 2 2.5 3.5 Figure 3...
please show steps, focus on part b more
1. (23 points) Sampling and Aliasing. (a) Find the Nyquist sampling rate wn for the given x(t). (Recall that the sampling frequency has to be twice larger than the bandwidth of the signal to recover the signal without loss of information.) i. (5 pts) X(t) = sinc(5000) * cos(7t). ii. (5 pts) r(t) = sin(101) cos(106) iii. (5 pts) (t) = sinc(50000) + cos(56) (b) (8 pts) Let r(t) = sinc(t/h), y(t)...
NOTE: L Answer all questions and sub-questions. Bl. A neat detailed step-by-step answer to earn full credit. i. Partial credit given only if you show intermediate steps. iv. Even if the "final answer" is correct, I will check the steps 1. This question has 5 sub-questions. Answer all of them (35 POINTS) a. Is the following differential equation: i. Linear or non-linear? Why? ii. Time variant or time invariant? Why? b. In the following OP-AMP circuit: Find: HINT: Vacts as...
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse Laplace transform h() of H(s)-10s+34 (Hint: use the Laplace transform pair for Decaying Sine or Generic Oscillatory Decay.) (b) Draw the corresponding direct form II block diagram of the system described by H(s) and (c) determine the corresponding differential equation. Problem 3: Using the unilateral Laplace transform, solve the following differential equation with the given initial condition: y)+5y(0) 2u), y(0)1 Problem 4: For the...
t = 0 ms (a) (4 marks) A sinusoidal wave moving along a string is shown twice in the figure at time t = 0 (top) and time t = 4t (bottom). After At = 4.0 ms, the crest travels d=6.0 cm in the positive x direction. The equation for the wave is in the form 8 mm H HHHx y(x, t) =Ym sin(kx = wt). t = 4 ms What are (i) ym, (ii)k, (iii) w, and (iv) the...
1) In the figure below, a truck is modeled as a 2-DOF system (DOFs: bounce, x(t) and pitch, 0(t) motion of the truck with respect to its center of gravity, c.g.). i) Determine the EOMs using the free-body diagram provided below (denote the mass of the truck as m and mass moment of inertia wrt to its c.g.as ) = mr? where r is the radius of gyration) ii) Assuming that the influence of unbalanced tires can be modeled as...
need help, convert them like below pic
S. OH- t. 10 w. CIO2 2- X. CO24 y. HSO3 z. CIO, u. HCO3- v. 104 5. Ionic Compounds with Polyatomic lons & Constant Charge lons a. CaCO3 i. potassium hydroxide b. KCIO j. beryllium hydroxide C. CASO k. strontium acetate d. Li2SO3 I. ammonium oxide e. Ag3PO4 m. silver cyanide f. NH,F n. zinc carbonate g. Al(NO2)3 0. aluminum bicarbonate h. Ba(HCO3)2- p. magnesium phosphate b. NiP04 6. Tonic Compounds with...
e.) Find and sketch the PSD of V(t). What does the system in Fig. 1 do? Problem 4 (10 points, Graduate Students Only). Suppose X is a binary random variable, with PIX = ol = 0.8 and PIX = 1] = 0.2. Suppose Y is a Gaussian random variable conditioned on X. Specifically, when X 0, py)x (ulz) is a Gaussian distribution with 0 mean and variance σ2. Similarly, when X-1, prix(ylz) Is a Gaussian distribution with mean A (A...
help me with this. Im done with task 1 and on the way to do task
2. but I don't know how to do it. I attach 2 file function of rksys
and ode45 ( the first is rksys and second is ode 45) . thank for
your help
Consider the spring-mass damper that can be used to model many dynamic systems -- ----- ------- m Applying Newton's Second Law to a free-body diagram of the mass m yields the...
3.2 Periodic trends 1. (0620-5 2012-Paper 1/2-Q21) Which properties of the element titanium, Ti, can be predicted from its position in the Periodic Table? forms coloured compounds conducts electricity when solid can be used has low density as a catalyst X A X X Xx 2. (0620-W 2012-Paper 1/1-Q20) The diagram shows an outline of the Periodic Table. U V W X Y Which of the elements U, V, W, X and Y would react together in the ratio of...
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