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Chapter 2: Q16E (page 75)

Each DE in Problemsis a Bernoulli equation. In Problemssolve the given differential equation by using an appropriate substitution.

Short Answer

Expert verified

Answer:

The solution of the given differential equation is.

Step by step solution

01

Define substitution method for differentiation.

Often, the first step in solving a differential equation is to use a substitution to change it into another differential equation. In the differential equation , if can be any real number, it is called a Bernoulli’s equation. If and , Bernoulli’s equation is linear. If and , the substitution reduces Bernoulli’s equation to a linear equation.

02

Find the derivative of the function using chain rule.

Divide the equation on both sides by .

… (1)

Let , and take the derivative of with respect to .

Define the derivative of the function using the chain rule as shown below.

Substitute the values of and in equation (1).

03

Separate the variables and integrate the function

Let the integrating factor be,

Integrate on both sides.

Substituteforinto the above equation.

Thus, the solution of the given differential equation is.

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Most popular questions from this chapter

In problems 1–24Find the general solution of the given differential equation. Give the largest interval I over which the general solution is defined. Determine whether there are any transient terms in the general solution.

(x+2)2dydx=5-8y-4xy

Each DE in Problems 1-14is homogeneous. In Problems 1-10solve the given differential equation by using an appropriate substitution.

xdx+(y-2x)dy=0

Consider the autonomous first-order differential equationand the initial condition. By hand, sketch the graph of a typical solution y(x) when y0has the given values.

(a) (b)

(c) (d)

In Problems, 21–28 find the critical points and phase portrait of the given autonomous first-order differential equation. Classify each critical point as asymptotically stable, unstable, or semi-stable. By hand, sketch typical solution curves in the regions in theplane determined by the graphs of the equilibrium solutions.

In Problems 1–4 reproduce the given computer-generated direction field. Then sketch, by hand, an approximate solution curve that passes through each of the indicated points. Use different colored pencils for each solution curve.

FIGURE 2.1.15 Direction field for Problem 4
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