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Question 1 1.1. Derive a differential equation describing an RL circuit (see below). The initial condition...
Problem 1 Given the circuit shown below in Fig. 1.1: Write the ordinary differential equation (ODE)...
Problem 1 Given the circuit shown below in Fig. 1.1: Write the ordinary differential equation (ODE) for the capacitor voltage. Find the zero-state unit step responses of v(t) and i(t) if vs-u(t) V using each of the following three methods of solving the ODE: a. b. i. ii. Solve the ODE by integrating for the solution; Solve the ODE by assuming homogeneous and particular solutions; Solve the ODE by using the general form solution for a 1st order ODE. iii....
In (14) of Section 1.3 we saw that a differential equation describing the velocity v of...
In (14) of Section 1.3 we saw that a differential equation describing the velocity v of a falling mass subject to air resistance proportional to the instantaneous velocity is dv dt where k> 0 is a constant of proportionality. The positive direction is downward (a) Solve the equation subject to the initial condition vo)o (b) Use the solution in part (a) to determine the limiting, or terminal, velocity of the mass c) If the distance s measured from the point...
Only for self-evaluation QUESTION 1 A series RL-circuit consist of a 21.6Q resistor and a 74mH...
Only for self-evaluation QUESTION 1 A series RL-circuit consist of a 21.6Q resistor and a 74mH inductor. The radial velocity in the circuit is 377rad/s and the supply voltage is represented by the equation: e(t) = 220+ 150 sinut + 120 sin(at+3 + 80 sin ( Sut volt 1.1 Determine an equation for the instantaneous current in the circuit 1.2 Calculate the active power dissipated in the resistor 1.3 Calculate the over-all power factor of the circuit. (10) [15]
part B asap 3. The differential equation describing the current in a circuit is given by:...
part B asap
3. The differential equation describing the current in a circuit is given by: dai(t) d+2° +2-06 + 5i(t) = v(t) dt a) Find i(t) fort > 0 using Laplace transforms if v(t) = 10u(t) and given that initial conditions are i(0+) = 4 and dico*) = -2. b) write an expression for i(t) if: 3 3 sin (2nnt - tan-1(4nt)) v(t) = nv1 + 16n2t2
1) Derive the 2d order differential equation for the circuit and solve the equation for a...
1) Derive the 2d order differential equation for the circuit and solve the equation for a natural response and a forced response using initial conditions. Do not use Laplace Transforms. After finding the differential equation, classify the system as critically damped, overdamped, or underdamped and derive the response equation. 12 V 20㏀ 10 mH
problem 1) Find the differential equation describing the amount of salt,Qb, in the tank for times...
problem 1) Find the differential equation describing the
amount of salt,Qb, in the tank for times t in the interval t>=T.
Then solve to obtain Qb(t) for t>= T
A Water Tank Problem with Discontinuous Source A water tank contains V > 0 liters of pure water and Qo grams of salt. At time t = 0 we start pouring water into the tank with a rate r >0 liters per minute with a salt concentration of q> 0 grams...
(1 point) Find the solution r(t) of the differential equation with the given initial condition: r'...
(1 point) Find the solution r(t) of the differential equation with the given initial condition: r' (t) = (sin 2t, sin 5t, 3t) , r(0) = (5,8,6) r(t) =(
Consider a causal LTI system implemented as the RL circuit shown below. In this circuit, v(t)...
Consider a causal LTI system implemented as the RL circuit shown below. In this circuit, v(t) is the input voltage. The current i(t) is considered the system output. i(t) R L wwwm v(t) (a) Find the differential equation relating v(t) and i(t). (b) Determine the frequency response of this system (H(jw)). (c) Determine the output it) if v(t) = sin(t), R=10 and L=1. (d) Sketch Bode plot of H (jw) for R=10 and L=1. (e) Determine if the system is...
Is, by Kırchoff's The differential equation for a single closed RL-circuit Second Law, di Ldt+ Ri...
is, by Kırchoff's The differential equation for a single closed RL-circuit Second Law, di Ldt+ Ri E(t) where i() is the current in the circuit at time t, L is the inductance, R is the resistance, and EO) is the impressed voltage. In this lab you will investigate the current under voltages that are nonzero for only a brief period of time. Assuming the values L -R 1, solve the LR- circuit initial value problem below using the Laplace transform....
Problem 1 Given the circuit shown below in Fig. 1.1: Write the ordinary differential equation (ODE) for the capacitor voltage. Find the zero-state unit step responses of v(t) and i(t) if vs-u(t) V using each of the following three methods of solving the ODE: a. b. i. ii. Solve the ODE by integrating for the solution; Solve the ODE by assuming homogeneous and particular solutions; Solve the ODE by using the general form solution for a 1st order ODE. iii....
In (14) of Section 1.3 we saw that a differential equation describing the velocity v of a falling mass subject to air resistance proportional to the instantaneous velocity is dv dt where k> 0 is a constant of proportionality. The positive direction is downward (a) Solve the equation subject to the initial condition vo)o (b) Use the solution in part (a) to determine the limiting, or terminal, velocity of the mass c) If the distance s measured from the point...
Only for self-evaluation QUESTION 1 A series RL-circuit consist of a 21.6Q resistor and a 74mH inductor. The radial velocity in the circuit is 377rad/s and the supply voltage is represented by the equation: e(t) = 220+ 150 sinut + 120 sin(at+3 + 80 sin ( Sut volt 1.1 Determine an equation for the instantaneous current in the circuit 1.2 Calculate the active power dissipated in the resistor 1.3 Calculate the over-all power factor of the circuit. (10) [15]
part B asap
3. The differential equation describing the current in a circuit is given by: dai(t) d+2° +2-06 + 5i(t) = v(t) dt a) Find i(t) fort > 0 using Laplace transforms if v(t) = 10u(t) and given that initial conditions are i(0+) = 4 and dico*) = -2. b) write an expression for i(t) if: 3 3 sin (2nnt - tan-1(4nt)) v(t) = nv1 + 16n2t2
1) Derive the 2d order differential equation for the circuit and solve the equation for a natural response and a forced response using initial conditions. Do not use Laplace Transforms. After finding the differential equation, classify the system as critically damped, overdamped, or underdamped and derive the response equation. 12 V 20㏀ 10 mH
problem 1) Find the differential equation describing the
amount of salt,Qb, in the tank for times t in the interval t>=T.
Then solve to obtain Qb(t) for t>= T
A Water Tank Problem with Discontinuous Source A water tank contains V > 0 liters of pure water and Qo grams of salt. At time t = 0 we start pouring water into the tank with a rate r >0 liters per minute with a salt concentration of q> 0 grams...
(1 point) Find the solution r(t) of the differential equation with the given initial condition: r' (t) = (sin 2t, sin 5t, 3t) , r(0) = (5,8,6) r(t) =(
Consider a causal LTI system implemented as the RL circuit shown below. In this circuit, v(t) is the input voltage. The current i(t) is considered the system output. i(t) R L wwwm v(t) (a) Find the differential equation relating v(t) and i(t). (b) Determine the frequency response of this system (H(jw)). (c) Determine the output it) if v(t) = sin(t), R=10 and L=1. (d) Sketch Bode plot of H (jw) for R=10 and L=1. (e) Determine if the system is...
is, by Kırchoff's The differential equation for a single closed RL-circuit Second Law, di Ldt+ Ri E(t) where i() is the current in the circuit at time t, L is the inductance, R is the resistance, and EO) is the impressed voltage. In this lab you will investigate the current under voltages that are nonzero for only a brief period of time. Assuming the values L -R 1, solve the LR- circuit initial value problem below using the Laplace transform....
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