ECET 345 Innovative Education--snaptutorial.com

ECET 345 Week 1 Homework For more classes visit ECET 345 Week 1 Homework 1.Express the following numbers in Cartesian (rectangular) form. 2.Express the following numbers in polar form. Describe the quadrant of the complex plane, in which the complex number is located. 3.(a) A continuous-time sine wave has a frequency of 60 Hz, an amplitude of 117 V, and an initial phase of π/4 radians. Describe this signal in a mathematical form using the Sin function.

ECET 345 Innovative Education--snaptutorial.com ECET 345 Week 1 iLab Observation of Wave-Shapes and Their Spectrum For more classes visit Objective of the lab experiment: The objective of this experiment is to observe the shapes of different kinds of signals such as sine waves, square waves, and so on and to study how the shape of a signal alters its spectrum.

ECET 345 Innovative Education--snaptutorial.com ECET 345 Week 1 Lab Signal Observation And Recreation For more classes visit Objective: Using a Tower system and supplied HCS12-based program, experimentally observe the closest equivalent of four key signals (impulse, sinusoidal, exponential, and square wave) on the oscilloscope and then create them in MATLAB. Equipment list: Tower System with ADCDAC board Oscilloscope

ECET 345 Innovative Education--snaptutorial.com ECET 345 Week 2 Homework For more classes visit ECET 345 Week 2 Homework 1.Redraw the following schematics with the impedance of each of the element shown in Laplace domain. Then determine the overall impedance of the entire circuit between the two ends of the shown circuit and express it in Laplace domain as a ratio of two polynomials in s, with the coefficients of the highest power if s in the numerator and denominator are made unity. (Follow the method outlined in the lecture to determine the impedances of elements in Laplace domain and then use the formulas for combining impedances in series and parallel.)

ECET 345 Innovative Education--snaptutorial.com ECET 345 Week 2 iLab Response of RC circuits For more classes visit Objective of the lab experiment: The objective of this experiment is to experimentally measure the impulse and step response of an RC circuit and compare it to theoretical results using Laplace transform.

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