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Obtain the differential equation from

  1. The maximum number of arbitrary constants is equal toa. Number of derivatives in the differential equation b. Degree of
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    2. Rin asked by Rin
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  2. Obtain the governing differential equation for unidirectional flow in a circular pipe. Use N-S equations and employ cylindrical
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    2. Johan asked by Johan
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  3. Solve the differential equation dy/dx = -xe^y and determine the equation of the curve through P(1,2)I tried solving the
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    2. Robert asked by Robert
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  4. An initial-value problem is given by the differential equation,f(x,y)=x(1-y^2), y(1)=0.07 Use the Euler-trapezoidal method with
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    2. enigma asked by enigma
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  5. consider the differential equationd^3x/dt^3 - 9(d^2x/dt^2)+ 27(dx/dt) -27x = c0s t +sin t + te^(3t) a) show that characteristic
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    2. thigan asked by thigan
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  6. Consider the differential equation given by dy/dx = xy/2.A. Let y=f(x) be the particular solution to the given differential
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    2. Anonymous asked by Anonymous
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  7. Consider the differential equation dy/dt=y-ta) Determine whether the following functions are solutions to the given differential
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    2. Stacey asked by Stacey
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  8. Verify that the formula u(t)=Acos(ωo*t+Φ) is a solution to the differential equation for the mass on a spring, by plugging
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    2. Anonymous asked by Anonymous
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  9. Using separation of variables, solve the following differential equation with initial conditions dy/dx = e^(2x+3y) and y(0) = 1.
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    2. Nick asked by Nick
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  10. (a) Let S be the set of solutions y(t) to the differential equation dy/dt = -y for t> 0. With addition and scalar multiplication
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    2. Cam asked by Cam
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