Help with A and C 2.25. Consider the triangular pulse of Figure P2.25(a) (a) Write a...
Consider the triangular voltage waveform v(t) shown in Figure. (a) Express v(t) mathematically (b) Use the real-shifting property to find E(v() (c) Sketch the first derivative of v(t). (d) Find the Laplace transform of the first derivative of v(t). (e) Use the results of Part (d) and the integral property to verify the results of Parts (b) and (d). (f) Use the derivative property and the result of Part (b) to verify the results of Parts (b) and (d) 0...
A Pulse Amplitude Modulated (PAM) signal is generated by naturally sampling a triangular wave of amplitude 3 volt peak and frequency 1 KHz as shown in Figure 4 by a pulse train of frequency 4 kHz with a pulse width of 0.025 ms. Draw the sampled waveform Message signal 3V 1 ms tms 3V-- (9 Marks) Figure 4 A Pulse Amplitude Modulated (PAM) signal is generated by naturally sampling a triangular wave of amplitude 3 volt peak and frequency 1...
Please help: Consider a pulse that is defined at time ? = 0.00 ? by the equation Problem 1: Consider a pulse that is defined at time t0.00 s by the equation 2.00x 2 fx)y(x,0) (0.05 m)e-2.7720 The pulse moves with a velocity of v 2.00 m/s in the positivex-direction (a) Show that the pulse is centered on x = 0.00 m at time t = 0.00 s. Draw approximately the pulse at t = 0.00 s (b) What is...
Consider the square pulse f(t) shown in the figure below. If we compress the pulse by a factor c > 1 and at the same time amplify its amplitude by the same factor c, we get a new function g(t) as shown in the figure (c = 2 for the given figure). Q.6. Consider the square pulse f(t) shown in the figure below. If we compress the pulse by a factor c>1 and at the same time amplify its amplitude...
Answer asap b) Suppose the RMS value of the triangular waveform shown is Figure 1 below is known to be XaMS 1/3. Find the RMS value of the waveform y(t) shown in Figure 2. 0 2
Problem 1 (4 points) Let h(t) be the triangular pulse shown in the Figure and let x(t) be the impulse train given with h(t) -1 2T-T T 27 Determine and sketch y(t)- x(t) * h(t) for the following values of T ·T=2 3 2
lsa(1) lsB(1) 1Isa(2) 1sja 7. Consider this two-electron wave function: ψ-C Write the expression for ψ that comes from expanding the determinant. Find the normalization constant, C. The 1s orbitals are orthonormal, and so are the spin orbitals. a) b) Using your answer from (a), show that the wave function factors into a spin part and a spatial part. Hint: It may help to rewrite each spin orbit so its spatial and spin factors are clearer. For instance, rewrite Isa...
Lab Procedure: Part 1: Source Free RC Circuit V(t) ilts C3 (R3 21ko 1uF IC=10V a) For the circuit shown above, provide the equation and calculate the following: 1. The source free equation for V(t) for V(O)= 10 volts 2. The equation for it) 3. V(t) and i(t) for t = t (one time constant) b) Now, enter the circuit using Multisim Schematic Capture. c) Simulate using Transient mode with a graphical output and verify graphical results with your calculations....
The triangular current pulse shown in (Figure 1) is applied to a 20 mH inductor. Use the passive sign convention. O AEQ If vec ? y = Submit Request Answer Part F Derive the expression for the inductor voltage in the interval 0 <t<5 ms. Suppose that t is in seconds. Express your answer in volts in terms of t. TIVI AS01 1. vec ? Submit Request Answer Figure < 1 of 1 > Part G the interval ms <t<10...
Consider the triangular prism shaped wire shown in the figure below where the triangular part is an equilateral triangle with sides c=9 mm. The current runs along the length of the wire where ! =6.9 m and the wire has cylindrical hole along its length with a cross sectional area of A=23 mm2. If the wire is made out of a material whose resistivity is 225 x 10-69.m, determine the resistance of the wire. Please express your answer in units...