Exam 1 Review. Part I. Finding solutions of a given differential equation. 1. Find the real numbers r such that y = e rx is a solution of y y 30y = 0.

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Exam 1 Review Part I. Finding solutions of a given differential equation. 1. Find the real numbers r such that y = e rx is a solution of y y 30y = 0. 2. Find the real numbers r such that y = e rx is a solution of y + 8y + 16y = 0. 3. Find the real numbers r such that y = e rx is a solution of y 2y + 10y = 0. 4. Find the real numbers r such that y = x r is a solution of x 2 y 5xy + 8y = 0. 5. Find the real numbers r such that y = x r is a solution of y 5 x y + 9 x2y = 0. Part II. Find the differential equation for an n-parameter family of curves. 1. y 2 = Cx 3 2. 2. y = C 1 x 3 + C 2 x. 3. y = C 1 e 2x + C 2 xe 2x. 4. y 3 = C(x 2) 2 + 4 5. y = C 1 e 3x cos 4x + C 2 e 3x sin 4x. 6. y = C 1 e 2x + C 2 e 5x. 7. y = C 1 + C 2 e 4x + 2x 8. y 3 = Cx 2 3x Part III. Identify each of the following first order differential equations. 1. x(1 + y 2 ) + y(1 + x 2 )y = 0. 2. xdy 2y x dx = x3 e x dx 3. (xy + y)y = x xy. 4. xy 2 dy dx = x3 e y/x x 2 y 5. y = 3y x + x4 y 1/3. 6. (3x 2 + 1)y 2xy = 6x. 7. x 2 y = x 2 + 3xy + y 2 1

8. x(1 y) + y(1 + x 2 ) dy dx = 0. 9. xy = x 2 y + y 2 ln x. Part IV. First order linear equations; find general solution, solve an initial-value problem. x 2 dy 2xy dx = x 4 cos 2x dx (1 + x 2 )y + 1 + 2x y = 0 xy y = 2x ln x 4. Find the solution of the initial-value problem xy + 3y = ex x, y(1) = 2 5. If y = y(x) is the solution of the initial-value problem y + 3y = 2 3e x, y(0) = 2, then lim y(x) = x Part V. Separable equations; find general solution, solve an initial-value problem. y = xe x+y yy = xy 2 x y 2 + 1 4. Find the solution of the initial-value problem ln x dy dx = y x y = x2 y y y + 1, y(3) = 1 Part VI. Bernoulli equations; find general solution. 2

y + xy = xy 3 y = 4y + 2e x y xy + y = y 2 ln x Part VII. Homogeneous equations; find general solution. y = y 2 xy + y 2 xy y = x 2 e y/x + y 2 y = y + x 2 y 2 x Part VIII. Applications 1. Given the family of curves y = Ce 2x + 1 Find the family of orthogonal trajectories. 2. Given the family of curves y 2 = C(x + 2) 3 2 Find the family of orthogonal trajectories. 3. Given the family of curves y 3 = Cx 2 + 2 Find the family of orthogonal trajectories. 4. A 200 gallon tank, initially full of water, develops a leak at the bottom. Given that 20% of the water leaks out in the first 4 minutes, find the amount of water left in the tank t minutes after the leak develops if: (i) The water drains off a rate proportional to the amount of water present. (ii) The water drains off a rate proportional to the product of the time elapsed and the amount of water present. 3

(iii) The water drains off a rate proportional to the square root of the amount of water present. 5. A certain radioactive material is decaying at a rate proportional to the amount present. If a sample of 100 grams of the material was present initially and after 2 hours the sample lost 20% of its mass, find: (a) An expression for the mass of the material remaining at any time t. (b) The mass of the material after 4 hours. (c) The half-life of the material. 6. A biologist observes that a certain bacterial colony triples every 4 hours and after 12 hours occupies 1 square centimeter. Assume that the colony obeys the population growth law. (a) How much area did the colony occupy when first observed? (b) What is the doubling time for the colony? 7. A thermometer is taken from a room where the temperature is 72 o F to the outside where the temperature is 32 o F. After 1/2 minute, the thermometer reads 50 o F. Assume Newton s Law of Cooling. (a) What will the thermometer read after it has been outside for 1 minute? (b) How many minutes does the thermometer have to be outside for it to read 35 o F? 8. An advertising company designs a campaign to introduce a new product to a metropolitan area of population M. Let P = P(t) denote the number of people who become aware of the product by time t. Suppose that P increases at a rate proportional to the number of people still unaware of the product. The company determines that no one was aware of the product at the beginning of the campaign and that 30% of the people were aware of the product after 10 days of advertising. (a) Give the mathematical model (differential equation and initiation condition). (b) Determine the solution of the initial-value problem in (a). (c) Determine the value of the proportionality constant. (d) How long does it take for 90% of the population to become aware of the product? 9. A disease is infecting a troop of 100 monkeys living in a remote preserve. Let M(t) be the number of sick monkeys t days after the outbreak. Suppose that the disease is spreading at a rate proportional to the product of the time elapsed and the number of monkeys which have the disease. Suppose, also, that 20 monkeys had the disease initially, and that 30 monkeys were sick after 2 weeks. (a) Give the mathematical model (differential equation and initiation condition). (b) Determine the solution of the initial-value problem in (a). (c) Determine the value of the proportionality constant. (d) How long does it take for 90% of the population to become aware of the product? Part IX. Second order linear equations; general theory. 4

1. { y 1 (x) = e 2x, y 2 (x) = e 2x} is a fundamental set of solutions of a linear homogeneous differential equation. What is the equation? 2. { y 1 (x) = x, y 2 (x) = x 3} is a fundamental set of solutions of a linear homogeneous differential equation. What is the equation? 3. Given the differential equation x 2 y 2x y 10 y = 0 (a) Find two values of r such that y = x r is a solution of the equation. (b) Determine a fundamental set of solutions and give the general solution of the equation. (c) Find the solution of the equation satisfying the initial conditions y(1) = 6, y (1) = 2. 4. Given the differential equation y (a) Find two values of r such that y = x r ( ) 6 y + x ( ) 12 y = 0 x 2 is a solution of the equation. (b) Determine a fundamental set of solutions and give the general solution of the equation. (c) Find the solution of the equation satisfying the initial conditions y(1) = 2, y (1) = 1. (d) Find the solution of the equation satisfying the initial conditions y(2) = y (2) = 0. Part X. Homogeneous equations with constant coefficients. y + 10y + 25 y = 0 y 8 y + 15 y = 0 y + 4y + 20y = 0 4. Find the solution of the initial-value problem: y 2y + 2y = 0; y(0) = 1, y (0) = 1 5. Find the solution of the initial-value problem: y + 4y + 4y = 0; y( 1) = 2, y ( 1) = 1 6. Find the general solution of y 2αy + α 2 y = 0, α a constant. 5

7. Find the general solution of y 2α y + (α 2 + β 2 )y = 0, α, β constants. 8. The function y = 2e 3x 5e 4x is a solution of a second order linear differential equation with constant coefficients. What is the equation? 9. The function y = 7e 3x cos 2x is a solution of a second order linear differential equation with constant coefficients. What is the equation? 10. Find a second order linear homogeneous differential equation with constant coefficients that has y = e 4x as a solution. 11. The function y = 6xe 4x is a solution of a second order linear differential equation with constant coefficients. What is the equation? 6

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