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Question 6: Given that v(0) = 2 and dv(0)/dt = 4, solve the following second-order...
Question 3 (1 mark) Attempt 1 Consider the following second order differential equation: 2 6 d2y...
Question 3 (1 mark) Attempt 1 Consider the following second order differential equation: 2 6 d2y +4 dr2 If we let u y and v y' then as an AUTONOMOUS first order system, the second order differential equation is correctly expressed as: dy d.r -y 1+112, with y(1) 9 and y'(1)5 d.r du 6 А dt1, to)1, dtv, u(to)=9, -1+11r2+2u-4v2, v(to)=5. du 6 B dry )9, ar=1+112+y-4(y), v(1)5 du d.r dt du C 1, (1) 0, =v, u(1)=9, -1+11r2+u-4v2, v(1)=5...
problem 34 Equations with the Independent Variable Missing. If a second order differential equation has the...
problem 34
Equations with the Independent Variable Missing. If a second order differential equation has the form y"f(y, y), then the independent variable t does not appear explicitly, but only through the dependent variable y. If we let y', then we obtain dv/dt-f(y, v). Since the right side of this equation depends on y and v, rather than on and v, this equation is not of the form of the first order equations discussed in Chapter 2. However, if we...
Given the first order equation describing the circuit... 4(dv/dt)+v=10 Find the time constant Find the final...
Given the first order equation describing the circuit... 4(dv/dt)+v=10 Find the time constant Find the final value of the voltage If v(0)=2 the function describing v(t) for all time.
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+)...
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+) b) The circuit differential equation and solve for iz(t), t 2 0 (No credit for Transform techniques) ix VI 102 422 + lo 5+10u(t) 10 H 1/4 F V
Given that no-5 and dv(0)/dt-10, solve-it2t) + 6U-30 e-tu (t). + 5 -t 2t V(t) is...
Given that no-5 and dv(0)/dt-10, solve-it2t) + 6U-30 e-tu (t). + 5 -t 2t V(t) is calculated as | e3 u(t)
Starting with an expression for U(S.V), show that m(V) = (dU/dV)T is given by Tt(v)= (dp/dT)V-P.
Starting with an expression for U(S.V), show that m(V) = (dU/dV)T is given by Tt(v)= (dp/dT)V-P.
2. Coupled Differential Equations (40 points) The well-known van der Pol oscillator is the second-order nonlinear differential equation shown below: + au dt 0. di The solution of this equation exhibi...
2. Coupled Differential Equations (40 points) The well-known van der Pol oscillator is the second-order nonlinear differential equation shown below: + au dt 0. di The solution of this equation exhibits stable oscillatory behavior. Van der Pol realized the parallel between the oscillations generated by this equation and certain biological rhythms, such as the heartbeat, and proposed this as a model of an oscillatory cardiac pacemaker. Solve the van der Pol equation using Second-order Runge Kutta Heun's method with the...
Solve the given integral equation or integro-differential equation for y(t). V'(t)+125] (t-v)/(v) dv=5t, y) = 0...
Solve the given integral equation or integro-differential equation for y(t). V'(t)+125] (t-v)/(v) dv=5t, y) = 0 125 ſe-vrye y()=
Solve the given integral equation or integro-differential equation for y(t). y (1)+ Ja-vy(v) dv=5t, y(0) =...
Solve the given integral equation or integro-differential equation for y(t). y (1)+ Ja-vy(v) dv=5t, y(0) = 0 0 y(t)=D
Solve the given integral equation or integro-differential equation for y(t). y'CL)+ 125 ſ <t-vy(v) dv=7! y(0)=0...
Solve the given integral equation or integro-differential equation for y(t). y'CL)+ 125 ſ <t-vy(v) dv=7! y(0)=0 0 y(t) = Enter your answer in the answer box.
Question 3 (1 mark) Attempt 1 Consider the following second order differential equation: 2 6 d2y +4 dr2 If we let u y and v y' then as an AUTONOMOUS first order system, the second order differential equation is correctly expressed as: dy d.r -y 1+112, with y(1) 9 and y'(1)5 d.r du 6 А dt1, to)1, dtv, u(to)=9, -1+11r2+2u-4v2, v(to)=5. du 6 B dry )9, ar=1+112+y-4(y), v(1)5 du d.r dt du C 1, (1) 0, =v, u(1)=9, -1+11r2+u-4v2, v(1)=5...
problem 34
Equations with the Independent Variable Missing. If a second order differential equation has the form y"f(y, y), then the independent variable t does not appear explicitly, but only through the dependent variable y. If we let y', then we obtain dv/dt-f(y, v). Since the right side of this equation depends on y and v, rather than on and v, this equation is not of the form of the first order equations discussed in Chapter 2. However, if we...
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+) b) The circuit differential equation and solve for iz(t), t 2 0 (No credit for Transform techniques) ix VI 102 422 + lo 5+10u(t) 10 H 1/4 F V
Given that no-5 and dv(0)/dt-10, solve-it2t) + 6U-30 e-tu (t). + 5 -t 2t V(t) is calculated as | e3 u(t)
Starting with an expression for U(S.V), show that m(V) = (dU/dV)T is given by Tt(v)= (dp/dT)V-P.
2. Coupled Differential Equations (40 points) The well-known van der Pol oscillator is the second-order nonlinear differential equation shown below: + au dt 0. di The solution of this equation exhibits stable oscillatory behavior. Van der Pol realized the parallel between the oscillations generated by this equation and certain biological rhythms, such as the heartbeat, and proposed this as a model of an oscillatory cardiac pacemaker. Solve the van der Pol equation using Second-order Runge Kutta Heun's method with the...
Solve the given integral equation or integro-differential equation for y(t). V'(t)+125] (t-v)/(v) dv=5t, y) = 0 125 ſe-vrye y()=
Solve the given integral equation or integro-differential equation for y(t). y (1)+ Ja-vy(v) dv=5t, y(0) = 0 0 y(t)=D
Solve the given integral equation or integro-differential equation for y(t). y'CL)+ 125 ſ <t-vy(v) dv=7! y(0)=0 0 y(t) = Enter your answer in the answer box.
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