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Deck 9: First-Order Differential Equations
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Question
Solve. Round your results to four decimal places.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Solve. Round your results to four decimal places.
Use the Euler method with dx = 0.2 to estimate y(3) if
and y(2) = -2. What is the exact value of y(3)? 
Use the Euler method with dx = 0.2 to estimate y(3) if
and y(2) = -2. What is the exact value of y(3)? Question
Match the differential equation with the appropriate slope field.
Question
Match the differential equation with the appropriate slope field.
Question
Match the differential equation with the appropriate slope field.
Question
Question
Match the differential equation with the appropriate slope field.
Question
Question
Match the differential equation with the appropriate slope field.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Question
Question
Match the differential equation with the appropriate slope field.
Question
Solve. Round your results to four decimal places.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
Question
Question
Solve the differential equation.
Question
Solve the problem.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Question
Solve the differential equation.
Question
Solve the initial value problem.
Question
Solve the initial value problem.
Question
Solve the differential equation.
Question
Solve the differential equation.
Question
Solve the differential equation.
Question
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
Question
Solve the differential equation.
Question
Solve the differential equation.
Question
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
Question
Solve the differential equation.
Question
Solve the initial value problem.
Question
Solve the problem.
Using the given conditions, obtain a slope field, solve for the general solution, and plot solution curves for the
arbitrary constant values C = -2, 2, and 4.
Using the given conditions, obtain a slope field, solve for the general solution, and plot solution curves for the
arbitrary constant values C = -2, 2, and 4.
Question
Solve the differential equation.
Question
Solve the initial value problem.
Question
Solve the problem.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Question
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
Question
Solve the differential equation.
Question
A) 8.01 min
B) 6.01 min
C) 5.01 min
D) 7.01 min
Question
Solve the initial value problem.
Question
Solve the differential equation.
Question
Determine which of the following equations is correct.
Question
Solve the problem.
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = -17t.
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = -17t.
Question
Solve the differential equation.
Question
Question
Solve the initial value problem.
Question
Solve the problem.
A tank initially contains 120 gal of brine in which 40 lb of salt are dissolved. A brine containing 4 lb/gal of salt runs into the tank at the rate of 8 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 5 gal/min. Write, in standard form, the differential equation that models the mixing process.
A tank initially contains 120 gal of brine in which 40 lb of salt are dissolved. A brine containing 4 lb/gal of salt runs into the tank at the rate of 8 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 5 gal/min. Write, in standard form, the differential equation that models the mixing process.
Question
Solve the differential equation.
Question
Solve the differential equation.
Question
Question
Solve the differential equation.
Question
Solve the initial value problem.
Question
Question
Solve the problem.
A tank initially contains 100 gal of brine in which 40 lb of salt are dissolved. A brine containing 2 lb/gal of salt runs into the tank at the rate of 4 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 3 gal/min. Find the solution to the differential equation that models the mixing process.
A tank initially contains 100 gal of brine in which 40 lb of salt are dissolved. A brine containing 2 lb/gal of salt runs into the tank at the rate of 4 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 3 gal/min. Find the solution to the differential equation that models the mixing process.
Question
Solve the initial value problem.
Question
Question
Question
Determine which of the following equations is correct.
Question
Question
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 4 is a stable equilibrium value and y = -4 is an unstable equilibrium.
B) y = -4 and y = 5 are stable equilibrium values.
C) y = -4 is a stable equilibrium value and y = 4 is an unstable equilibrium.
D) There are no equilibrium values.
A) y = 4 is a stable equilibrium value and y = -4 is an unstable equilibrium.
B) y = -4 and y = 5 are stable equilibrium values.
C) y = -4 is a stable equilibrium value and y = 4 is an unstable equilibrium.
D) There are no equilibrium values.
Question
Show that the curves are orthogonal.
Question
A local pond can only hold up to 43 geese. Eight geese are introduced into the pond. Assume that the rate of growth of the population is 
where t is time in weeks.
How long will it take for the goose population to be 24?
A) 35.07 weeks
B) 58.74 weeks
C) 13.84 weeks
D) 26.50 weeks
where t is time in weeks.How long will it take for the goose population to be 24?
A) 35.07 weeks
B) 58.74 weeks
C) 13.84 weeks
D) 26.50 weeks
Question
Solve the initial value problem 
Question
Question
Question
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 2 is an unstable equilibrium value.
B) y = 0 is a stable equilibrium value.
C) y = 0 is an unstable equilibrium value.
D) There are no equilibrium values.
A) y = 2 is an unstable equilibrium value.
B) y = 0 is a stable equilibrium value.
C) y = 0 is an unstable equilibrium value.
D) There are no equilibrium values.
Question
Show that the curves are orthogonal.
Question
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 5, y = 1 and y = 4 are unstable equilibria.
B) y = 1 is a stable equilibrium value and y = 3 and y = 4 are unstable equilibria.
C) y = 4 is a stable equilibrium value and y = 3 and y = 1 are unstable equilibria.
D) y = 3 is a stable equilibrium value and y = 1 and y = 4 are unstable equilibria.
A) y = 5, y = 1 and y = 4 are unstable equilibria.
B) y = 1 is a stable equilibrium value and y = 3 and y = 4 are unstable equilibria.
C) y = 4 is a stable equilibrium value and y = 3 and y = 1 are unstable equilibria.
D) y = 3 is a stable equilibrium value and y = 1 and y = 4 are unstable equilibria.
Question
A local pond can only hold up to 56 geese. Five geese are introduced into the pond. Assume that the rate of growth of the population is 
where t is time in weeks.
Find a formula for the goose population in terms of t.
where t is time in weeks.Find a formula for the goose population in terms of t.
Question
Find the orthogonal trajectories of the family of curves. Sketch several members of each family.
Question
Question
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 3 is a stable equilibrium value and y = 0 is an unstable equilibrium.
B) y = 0 is a stable equilibrium value and y = 3 is an unstable equilibrium.
C) y = 0 and y = 3 are unstable equilibrium values.
D) There are no equilibrium values.
A) y = 3 is a stable equilibrium value and y = 0 is an unstable equilibrium.
B) y = 0 is a stable equilibrium value and y = 3 is an unstable equilibrium.
C) y = 0 and y = 3 are unstable equilibrium values.
D) There are no equilibrium values.
Question
Identify equilibrium values and determine which are stable and which are unstable.
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Deck 9: First-Order Differential Equations
1
Solve. Round your results to four decimal places.
B
2
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
D
3
Solve. Round your results to four decimal places.
Use the Euler method with dx = 0.2 to estimate y(3) if and y(2) = -2. What is the exact value of y(3)?
Use the Euler method with dx = 0.2 to estimate y(3) if
and y(2) = -2. What is the exact value of y(3)? D
4
Match the differential equation with the appropriate slope field.
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5
Match the differential equation with the appropriate slope field.
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6
Match the differential equation with the appropriate slope field.
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7
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8
Match the differential equation with the appropriate slope field.
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9
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10
Match the differential equation with the appropriate slope field.
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11
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
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12
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13
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14
Match the differential equation with the appropriate slope field.
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15
Solve. Round your results to four decimal places.
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16
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
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17
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
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18
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
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19
Use Euler's method to calculate the first three approximations to the given initial value problem for the specified
increment size. Round your results to four decimal places.
increment size. Round your results to four decimal places.
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20
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21
Solve the differential equation.
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22
Solve the problem.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
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23
Solve the differential equation.
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24
Solve the initial value problem.
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25
Solve the initial value problem.
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26
Solve the differential equation.
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27
Solve the differential equation.
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28
Solve the differential equation.
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29
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
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30
Solve the differential equation.
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31
Solve the differential equation.
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32
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
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33
Solve the differential equation.
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34
Solve the initial value problem.
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35
Solve the problem.
Using the given conditions, obtain a slope field, solve for the general solution, and plot solution curves for the
arbitrary constant values C = -2, 2, and 4.
Using the given conditions, obtain a slope field, solve for the general solution, and plot solution curves for the
arbitrary constant values C = -2, 2, and 4.
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36
Solve the differential equation.
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37
Solve the initial value problem.
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38
Solve the problem.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
Using the given conditions, obtain a slope field and graph the particular solution over the specified interval.
Then find the general solution of the differential equation.
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39
Use Euler's method with the specified step size to estimate the value of the solution at the given point x*. Find the value
of the exact solution at x*.
of the exact solution at x*.
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40
Solve the differential equation.
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41
A) 8.01 min
B) 6.01 min
C) 5.01 min
D) 7.01 min
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42
Solve the initial value problem.
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43
Solve the differential equation.
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44
Determine which of the following equations is correct.
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45
Solve the problem.
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = -17t.
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = -17t.
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46
Solve the differential equation.
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47
A 100 gal tank is half full of distilled water. At time = 0, a solution containing 2 lb/gal of concentrate enters the tank at the rate of 4 gal/min, and the well-stirred mixture is withdrawn at the rate of 3 gal/min. When the tank
Is full, how many pounds of concentrate will it contain?
A) 175 pounds
B) 200 pounds
C) 187.5 pounds
D) 150 pounds
Is full, how many pounds of concentrate will it contain?
A) 175 pounds
B) 200 pounds
C) 187.5 pounds
D) 150 pounds
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48
Solve the initial value problem.
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49
Solve the problem.
A tank initially contains 120 gal of brine in which 40 lb of salt are dissolved. A brine containing 4 lb/gal of salt runs into the tank at the rate of 8 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 5 gal/min. Write, in standard form, the differential equation that models the mixing process.
A tank initially contains 120 gal of brine in which 40 lb of salt are dissolved. A brine containing 4 lb/gal of salt runs into the tank at the rate of 8 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 5 gal/min. Write, in standard form, the differential equation that models the mixing process.
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50
Solve the differential equation.
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51
Solve the differential equation.
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52
A tank contains 100 gal of fresh water. A solution containing 2 lb/gal of soluble lawn fertilizer runs into the tank at the rate of 1 gal/min, and the mixture is pumped out of the tank at the rate of 2 gal/min. Find the
Maximum amount of fertilizer in the tank and the time required to reach the maximum.
A) 48 pounds, 60 minutes
B) 48 pounds, 40 minutes
C) 60 pounds, 40 minutes
D) 50 pounds, 50 minutes
Maximum amount of fertilizer in the tank and the time required to reach the maximum.
A) 48 pounds, 60 minutes
B) 48 pounds, 40 minutes
C) 60 pounds, 40 minutes
D) 50 pounds, 50 minutes
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53
Solve the differential equation.
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54
Solve the initial value problem.
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55
How many seconds after the switch in an RL circuit is closed will it take the current i to reach 40% of its steady state value? Express answer in terms of R and L and round coefficient to the nearest hundredth.
A) 0.92 L/R seconds
B) 0.51 L/R seconds
C) 1.12 L/R seconds
D) 0.71 L/R seconds
A) 0.92 L/R seconds
B) 0.51 L/R seconds
C) 1.12 L/R seconds
D) 0.71 L/R seconds
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56
Solve the problem.
A tank initially contains 100 gal of brine in which 40 lb of salt are dissolved. A brine containing 2 lb/gal of salt runs into the tank at the rate of 4 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 3 gal/min. Find the solution to the differential equation that models the mixing process.
A tank initially contains 100 gal of brine in which 40 lb of salt are dissolved. A brine containing 2 lb/gal of salt runs into the tank at the rate of 4 gal/min. The mixture is kept uniform by stirring and flows out of the tank at
The rate of 3 gal/min. Find the solution to the differential equation that models the mixing process.
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57
Solve the initial value problem.
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58
A 200 gal tank is half full of distilled water. At time = 0, a solution containing 1 lb/gal of concentrate enters the tank at the rate of 4 gal/min, and the well-stirred mixture is withdrawn at the rate of 2 gal/min. When the tank
Is full, how many pounds of concentrate will it contain?
A) 200 pounds
B) 150 pounds
C) 120 pounds
D) 100 pounds
Is full, how many pounds of concentrate will it contain?
A) 200 pounds
B) 150 pounds
C) 120 pounds
D) 100 pounds
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59
Solve the problem.
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = 20t.
A) y = 1000t + 50,000 + 60,000e-.02t
B) y = -1000t - 50,000 + 60,000e.02t
C) y = -1000t - 50,000 + 60,000e-.02t
D) y = 1000t - 50,000 + 60,000e-.02t
dy/dt = ky + f(t) is a population model where y is the population at time t and f(t) is some function to describe the net effect on the population. Assume k = .02 and y = 10,000 when t = 0. Solve the differential equation of y
When f(t) = 20t.
A) y = 1000t + 50,000 + 60,000e-.02t
B) y = -1000t - 50,000 + 60,000e.02t
C) y = -1000t - 50,000 + 60,000e-.02t
D) y = 1000t - 50,000 + 60,000e-.02t
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60
Determine which of the following equations is correct.
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61
A 59-kg skateboarder on a 1-kg board starts coasting on level ground at 10 m/sec. Let k = 3.2 kg/sec. How long will it take the skater's speed to drop to 2 m/sec?
A) -30.18 sec
B) 29.67 sec
C) 30.18 sec
D) 0.50 sec
A) -30.18 sec
B) 29.67 sec
C) 30.18 sec
D) 0.50 sec
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62
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 4 is a stable equilibrium value and y = -4 is an unstable equilibrium.
B) y = -4 and y = 5 are stable equilibrium values.
C) y = -4 is a stable equilibrium value and y = 4 is an unstable equilibrium.
D) There are no equilibrium values.
A) y = 4 is a stable equilibrium value and y = -4 is an unstable equilibrium.
B) y = -4 and y = 5 are stable equilibrium values.
C) y = -4 is a stable equilibrium value and y = 4 is an unstable equilibrium.
D) There are no equilibrium values.
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63
Show that the curves are orthogonal.
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64
A local pond can only hold up to 43 geese. Eight geese are introduced into the pond. Assume that the rate of growth of the population is where t is time in weeks.
How long will it take for the goose population to be 24?
A) 35.07 weeks
B) 58.74 weeks
C) 13.84 weeks
D) 26.50 weeks
where t is time in weeks.How long will it take for the goose population to be 24?
A) 35.07 weeks
B) 58.74 weeks
C) 13.84 weeks
D) 26.50 weeks
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65
Solve the initial value problem
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66
Find the orthogonal trajectories of the family of curves. Sketch several members of each family.
y = -mx
y = -mx
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67
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68
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 2 is an unstable equilibrium value.
B) y = 0 is a stable equilibrium value.
C) y = 0 is an unstable equilibrium value.
D) There are no equilibrium values.
A) y = 2 is an unstable equilibrium value.
B) y = 0 is a stable equilibrium value.
C) y = 0 is an unstable equilibrium value.
D) There are no equilibrium values.
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69
Show that the curves are orthogonal.
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70
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 5, y = 1 and y = 4 are unstable equilibria.
B) y = 1 is a stable equilibrium value and y = 3 and y = 4 are unstable equilibria.
C) y = 4 is a stable equilibrium value and y = 3 and y = 1 are unstable equilibria.
D) y = 3 is a stable equilibrium value and y = 1 and y = 4 are unstable equilibria.
A) y = 5, y = 1 and y = 4 are unstable equilibria.
B) y = 1 is a stable equilibrium value and y = 3 and y = 4 are unstable equilibria.
C) y = 4 is a stable equilibrium value and y = 3 and y = 1 are unstable equilibria.
D) y = 3 is a stable equilibrium value and y = 1 and y = 4 are unstable equilibria.
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71
A local pond can only hold up to 56 geese. Five geese are introduced into the pond. Assume that the rate of growth of the population is where t is time in weeks.
Find a formula for the goose population in terms of t.
where t is time in weeks.Find a formula for the goose population in terms of t.
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72
Find the orthogonal trajectories of the family of curves. Sketch several members of each family.
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73
A 53-kg skateboarder on a 1-kg board starts coasting on level ground at 10 m/sec. Let k = 3.2 kg/sec. About how far will the skater coast before reaching a complete stop?
A) 16.96 m
B) 168.75 m
C) 1696.00 m
D) 165.62 m
A) 16.96 m
B) 168.75 m
C) 1696.00 m
D) 165.62 m
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74
Identify equilibrium values and determine which are stable and which are unstable.
A) y = 3 is a stable equilibrium value and y = 0 is an unstable equilibrium.
B) y = 0 is a stable equilibrium value and y = 3 is an unstable equilibrium.
C) y = 0 and y = 3 are unstable equilibrium values.
D) There are no equilibrium values.
A) y = 3 is a stable equilibrium value and y = 0 is an unstable equilibrium.
B) y = 0 is a stable equilibrium value and y = 3 is an unstable equilibrium.
C) y = 0 and y = 3 are unstable equilibrium values.
D) There are no equilibrium values.
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75
Identify equilibrium values and determine which are stable and which are unstable.
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Unlock Deck
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