Please I need help with Q2 ASAP, please explain in the
most simplest way as possible and please write clearly. Thanks in
advance.
Homework Answers
Add Answer to:
Please I need help with Q2 ASAP, please explain in the
most simplest way as possible...
Matlab Homework #4: Matlab Linear Systems Simulation 1.) Obtain the differential equation for the...
Matlab Homework #4: Matlab Linear Systems Simulation 1.) Obtain the differential equation for the mechanical system shown below bi FLR) orce CN) voltege ) 2.) Obtain the differential equation for the electrical system shown below shown below OAF 3.) Find the transfer functions corresponding to the differential equations found in questions I and 2 the 4) Let the input force applied to the block of the mechanical system be zero U)-のThe initial conditions are y(0) = 10 cm and dy(0)d-0....
Figure 2 shows the electrical system (band-stop or notch filter). These circuits are used to "filter...
Figure 2 shows the electrical system (band-stop or notch filter). These circuits are used to "filter out" or attenuate input signals within a particular frequency band. For example, notch filters are used on aerospace vehicles to remove the mechanical vibrations that are transmitted to the onboard sensors such as gyroscopes and accelerometers. Derive the transfer function G(s) of the band-stop or notch filter where voltage eo is the desired output and source voltage ein() is the input. L Output voltage...
3.2 Pre-Lab Assignment When deriving the governing equations for an electromechanical system, it is often beneficial...
3.2 Pre-Lab Assignment When deriving the governing equations for an electromechanical system, it is often beneficial to examine the electrical and mechanical components independently. Looking at only the electrical components of the QUBE-Servo DC motor (as shown in Figure 3.2): R v00 C e, (00 Figure 3.2: Electrical curcuit of the QUBE-Servo DC motor Q1. Write the differential equation in the form of Kirchoff's voltage law) in the Laplace domain for the electrical circuit (do not use parameter values given...
(i) Find the transfer function G(s) = Vo(s)/Vi(s) of this system using electrical impedances. Express the...
(i) Find the transfer function G(s) = Vo(s)/Vi(s) of this system using electrical impedances. Express the transfer function as a ratio of two s polynomials. (ii) Plot the output voltage v, as a function of time by means of the transfer function determined at (i) for an input voltage vi= 120e0.18 Volt, R2 = 110 9, R2 = 900, R3 = 100 0, L = 3H and C= 80-106 F. Use MATLAB's step command to plot volt). Also use Simulink...
can someone help please Q2 (14%) Consider the circuit below where R1=25 Ω, R2=1,5 Ω, c,-18F,...
can someone help please
Q2 (14%) Consider the circuit below where R1=25 Ω, R2=1,5 Ω, c,-18F, and C2=1/10F a) Find the transfer function between the input voltage and output voltage, that is, H(s) - Vo(s)/N(s) (b) Draw the bode plots for the transfer function. 0-2 0. Ri 2. m@ cT쿠 e(t) Ci c2
uestion 3: (10 points) n the RC circuit in the figure, Ri = 10 KQ, R2...
uestion 3: (10 points) n the RC circuit in the figure, Ri = 10 KQ, R2 = 30 KO, and C 6 uF. aswer the following questions, ) What is the equivalent resistor R12 to R and R2? 2) Find the differential equation relating the output voltage Vout to the input voltage 3) What is the order of the system? 4) What is the time constant t? 5) For step input Vin = 10V, find an expression for the output...
Show a sketch clearly labeling all of the voltages and currents, and determine the governing differential...
Show a sketch clearly labeling all of the voltages and
currents, and determine the governing differential equation as
indicated.
please show steps
6. The electro-mechanical system shown below consists of an electric motor with input voltage V which drives inertia I in the mechanical system (see torque T). Find the governing differential equations of motion for this electro-mechanical system in terms of the input voltage to the motor and output displacement y. Electrical System Vbas -Motor Motor Input Voltage bMotor...
System Modeling and Laplace transform: In this problem we will review the modeling proce- dure for the RLC circuit as shown below, and how to find the corresponding transfer function and step respons...
System Modeling and Laplace transform: In this problem we will review the modeling proce- dure for the RLC circuit as shown below, and how to find the corresponding transfer function and step response Ri R2 Cv0) i2) i,(0) 3.1 Considering the input to be V(t) and the output to be Ve(t), find the transfer function of the system. To do that, first derive the differential equations for al the three loops and then take the Laplace transforms of them. 3.2...
Please show all the necessary steps to get the answers eo Figure 1.1 Show that the...
Please show all the necessary steps to get the
answers
eo Figure 1.1 Show that the transfer function relating the input voltage e, and output voltage eo for the circuit shown in figure 1.1 is given by E(6) LCs +RCS +1 a. b. The values ofL, R and C are 2H, 122 and 0.1F respectively. Determine eo(t) when a 5V step input is applied. Using the initial and final value theorem, find the initial and final value of the output...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
Matlab Homework #4: Matlab Linear Systems Simulation 1.) Obtain the differential equation for the mechanical system shown below bi FLR) orce CN) voltege ) 2.) Obtain the differential equation for the electrical system shown below shown below OAF 3.) Find the transfer functions corresponding to the differential equations found in questions I and 2 the 4) Let the input force applied to the block of the mechanical system be zero U)-のThe initial conditions are y(0) = 10 cm and dy(0)d-0....
Figure 2 shows the electrical system (band-stop or notch filter). These circuits are used to "filter out" or attenuate input signals within a particular frequency band. For example, notch filters are used on aerospace vehicles to remove the mechanical vibrations that are transmitted to the onboard sensors such as gyroscopes and accelerometers. Derive the transfer function G(s) of the band-stop or notch filter where voltage eo is the desired output and source voltage ein() is the input. L Output voltage...
3.2 Pre-Lab Assignment When deriving the governing equations for an electromechanical system, it is often beneficial to examine the electrical and mechanical components independently. Looking at only the electrical components of the QUBE-Servo DC motor (as shown in Figure 3.2): R v00 C e, (00 Figure 3.2: Electrical curcuit of the QUBE-Servo DC motor Q1. Write the differential equation in the form of Kirchoff's voltage law) in the Laplace domain for the electrical circuit (do not use parameter values given...
(i) Find the transfer function G(s) = Vo(s)/Vi(s) of this system using electrical impedances. Express the transfer function as a ratio of two s polynomials. (ii) Plot the output voltage v, as a function of time by means of the transfer function determined at (i) for an input voltage vi= 120e0.18 Volt, R2 = 110 9, R2 = 900, R3 = 100 0, L = 3H and C= 80-106 F. Use MATLAB's step command to plot volt). Also use Simulink...
can someone help please
Q2 (14%) Consider the circuit below where R1=25 Ω, R2=1,5 Ω, c,-18F, and C2=1/10F a) Find the transfer function between the input voltage and output voltage, that is, H(s) - Vo(s)/N(s) (b) Draw the bode plots for the transfer function. 0-2 0. Ri 2. m@ cT쿠 e(t) Ci c2
uestion 3: (10 points) n the RC circuit in the figure, Ri = 10 KQ, R2 = 30 KO, and C 6 uF. aswer the following questions, ) What is the equivalent resistor R12 to R and R2? 2) Find the differential equation relating the output voltage Vout to the input voltage 3) What is the order of the system? 4) What is the time constant t? 5) For step input Vin = 10V, find an expression for the output...
Show a sketch clearly labeling all of the voltages and
currents, and determine the governing differential equation as
indicated.
please show steps
6. The electro-mechanical system shown below consists of an electric motor with input voltage V which drives inertia I in the mechanical system (see torque T). Find the governing differential equations of motion for this electro-mechanical system in terms of the input voltage to the motor and output displacement y. Electrical System Vbas -Motor Motor Input Voltage bMotor...
System Modeling and Laplace transform: In this problem we will review the modeling proce- dure for the RLC circuit as shown below, and how to find the corresponding transfer function and step response Ri R2 Cv0) i2) i,(0) 3.1 Considering the input to be V(t) and the output to be Ve(t), find the transfer function of the system. To do that, first derive the differential equations for al the three loops and then take the Laplace transforms of them. 3.2...
Please show all the necessary steps to get the
answers
eo Figure 1.1 Show that the transfer function relating the input voltage e, and output voltage eo for the circuit shown in figure 1.1 is given by E(6) LCs +RCS +1 a. b. The values ofL, R and C are 2H, 122 and 0.1F respectively. Determine eo(t) when a 5V step input is applied. Using the initial and final value theorem, find the initial and final value of the output...
Question No.2 (CLO 21 10 marks) ) In the circuit shown the input v(O) is a step voltage of sv and the output is the voltage across the capacitor vot) a. Find the output voltage in Laplace domain. Find the output voltage as a function of time (assume the initial voltage across the capacitor is zero). Sketch the output voltage. Find the time constant and settling time. . c. (b) Given the following system G (s)-=-: i Find the differential...
Most questions answered within 3 hours.
-
Book:
Title: Framework for
Marketing Management, 15th edition
Author/s: Philip T.
Kotler, Kevin Lane Keller
1....
asked 3 minutes ago -
Given Uber’s recent corporate turbulence and ongoing
initiatives, provide a holistic situational analysis of the
environment...
asked 6 minutes ago -
A sculptor has hung up a 42.0 kg horizontal rod of length 4.80 m
. One...
asked 9 minutes ago -
What is the purpose of the 2' hydroxyl group in RNA? What is
the reason this...
asked 27 minutes ago -
You currently have 20,000X ethidium bromide. You want to make
250 mL of 1X ethidium bromide...
asked 40 minutes ago -
What mass of lead is needed to absorb 348 J of heat if the temp
of...
asked 43 minutes ago -
Explain the difference between an auction with reserve
and an auction without reserve. if not specified,...
asked 45 minutes ago -
Write the net ionic equation for the precipitation reaction that
occurs when aqueous solutions of aluminum...
asked 48 minutes ago -
How do we find the slope distance, given the horizontal distance
and the zenith angle?
For...
asked 47 minutes ago -
The table to the right lists probabilities for the corresponding
numbers of girls in three births....
asked 58 minutes ago -
The inverse demand function for good X is P = 5−0.05Q. The
firm’s cost curve is...
asked 56 minutes ago -
The Fresh Connection is really pushing the new line of juice
products. Given that it takes...
asked 1 hour ago