Classify the differential equation by order and linearity. dy + cos st (1)%+3y = sin sin(2) dt2 Linear, second order dif

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Classify The Differential Equation By Order And Linearity Dy Cos St 1 3y Sin Sin 2 Dt2 Linear Second Order Dif 1 (72.99 KiB) Viewed 58 times

Classify The Differential Equation By Order And Linearity Dy Cos St 1 3y Sin Sin 2 Dt2 Linear Second Order Dif 2 (72.99 KiB) Viewed 58 times

Classify The Differential Equation By Order And Linearity Dy Cos St 1 3y Sin Sin 2 Dt2 Linear Second Order Dif 3 (25.04 KiB) Viewed 58 times

Classify The Differential Equation By Order And Linearity Dy Cos St 1 3y Sin Sin 2 Dt2 Linear Second Order Dif 4 (28.03 KiB) Viewed 58 times

Classify The Differential Equation By Order And Linearity Dy Cos St 1 3y Sin Sin 2 Dt2 Linear Second Order Dif 5 (39.56 KiB) Viewed 58 times

Classify the differential equation by order and linearity. dy + cos st (1)%+3y = sin sin(2) dt2 Linear, second order differential equation Nonlinear, first order differential equation Linear, first order differential equation Nonlinear, second order differential equation
Find the values for r such that y(t) = t' is a solution to the differential equation 12 y" + 6ty' + 6y = 0. Or= 2,-3 Or= -2, -3 Or= 2, 3 r= -2,3
Find C that satisfies the initial condition. y(t) = Ce5t +30 with y(O) =2. Your Answer: Answer
Find the particular solution that satisfies the initial conditions. y(t) = Ci sin(2t) + C2 cos(2t) with y(1/2) = -1 and y'(1/2) = 1.. Oy(t) = - į sin(2t) + cos(2t) Oy(t) = – sin(2t) + cos(2t) Oy(t) = 2 sin(2t) - 2 cos(2t) Oy(t) = sin(21)