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Deck 1: Introduction to Differential Equations

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Question
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px> is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px> , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
C) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
E) 1
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Question
The initial value problem <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px> has a unique solution guaranteed by Theorem 1.1 if

A) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
In the previous problem, over a long period of time, the total amount of salt in the tank will approach

A) 300 pounds
B) 500 pounds
C) 1000 pounds
D) 3000 pounds
E) 5000 pounds
Question
The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px> and one minute later, it is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px> . The ambient temperature of the room is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px> . If <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px> represents the temperature of the coffee at time t, the correct differential equation for the temperature is

A) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px> represents the amount of salt in the tank at time t, the correct differential equation for A is

A) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
In the LRC circuit problem in the text, the units for C, are

A) ohms
B) farads
C) amperes
D) henrys
E) coulombs
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 <div style=padding-top: 35px> are

A) 1 and 7
B) <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 <div style=padding-top: 35px> and 6
C) 1 and 6
D) 1 and <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 <div style=padding-top: 35px>
E) <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 <div style=padding-top: 35px> and 7
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 <div style=padding-top: 35px> are

A) 4 and <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 <div style=padding-top: 35px>
B) <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 <div style=padding-top: 35px> and <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 <div style=padding-top: 35px>
C) 3 and 6
D) 4 and 5
E) 3 and 5
Question
In the previous problem, after a long period of time, the temperature of the coffee approaches

A) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px> are

A) <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px> and 4
B) <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px> and <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px>
C) 3 and 4
D) 2 and 6
E) 3 and <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and <div style=padding-top: 35px>
Question
The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px> , as a function of time, t, is

A) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The values of c for which <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 <div style=padding-top: 35px> is a constant solution of <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 <div style=padding-top: 35px> are

A) 1 and 6
B) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 <div style=padding-top: 35px> and 6
C) 1 and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 <div style=padding-top: 35px>
D) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 <div style=padding-top: 35px> and 3
E) 2 and 3
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
In the falling body problem, the units of acceleration might be

A) centimeters per second
B) feet per second
C) feet per second per second
D) kilograms per centimeter
E) kilograms per centimeter per second
Question
In the LRC circuit problem in the text, R stands for

A) capacitance
B) resistance
C) current
D) inductance
E) charge on the capacitor
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px> is <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px> , where <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px>

A) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px>
B) 3
C) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px>
D) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px>
E) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) <div style=padding-top: 35px>
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> are

A) 2 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> and <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px>
C) 3 and 5
D) 2 and 3
E) 1 and 5
Question
The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px> and one minute later, it is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px> . The ambient temperature of the room is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px> . If <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px> represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is

A) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px> , as a function of time, t, is

A) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> are

A) 2 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px> and <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 <div style=padding-top: 35px>
C) 3 and 4
D) 2 and 3
E) 1 and 5
Question
In the LRC circuit problem in the text, C stands for

A) capacitance
B) resistance
C) current
D) inductance
E) charge on the capacitor
Question
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 <div style=padding-top: 35px> is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 <div style=padding-top: 35px> , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 <div style=padding-top: 35px>

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 <div style=padding-top: 35px>
C) 3
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 <div style=padding-top: 35px>
E) 1
Question
The values of c for which <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px> is a constant solution of <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px> are

A) 1 and 4
B) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px> and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px>
C) 1 and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px>
D) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 <div style=padding-top: 35px> and 3
E) 1 and 3
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
In the LRC circuit problem in the text, the units of inductance, L, are

A) ohms
B) farads
C) amperes
D) henrys
E) coulombs
Question
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px> is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px> , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
C) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 <div style=padding-top: 35px>
E) 1
Question
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px> is a solution of <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px> are

A) 1 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px> and 4
C) 2 and 3
D) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px> and <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px>
E) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 <div style=padding-top: 35px> and 5
Question
In the previous problem, after a long period of time, the temperature of the coffee approaches

A) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
Question
In the previous problem, over a long period of time, the total amount of salt in the tank will approach

A) 30 pounds
B) 50 pounds
C) 100 pounds
D) 200 pounds
E) 300 pounds
Question
In the falling body problem, the units of acceleration might be

A) meters per second
B) feet per second
C) meters per second per second
D) kilograms per meter
E) kilograms per meter per second
Question
A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px> represents the amount of salt in the tank at time t, the correct differential equation for A is

A) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The initial value problem <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px> has a unique solution guaranteed by Theorem 1.1 if

A) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear <div style=padding-top: 35px> is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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Deck 1: Introduction to Differential Equations
1
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
C) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
E) 1
B
2
The initial value problem <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) has a unique solution guaranteed by Theorem 1.1 if

A) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
B) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
C) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
D) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
E) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
D
3
In the previous problem, over a long period of time, the total amount of salt in the tank will approach

A) 300 pounds
B) 500 pounds
C) 1000 pounds
D) 3000 pounds
E) 5000 pounds
D
4
The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) and one minute later, it is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) . The ambient temperature of the room is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) . If <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E) represents the temperature of the coffee at time t, the correct differential equation for the temperature is

A) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E)
B) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E)
C) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E)
D) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E)
E) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature is</strong> A) B) C) D) E)
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5
A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) represents the amount of salt in the tank at time t, the correct differential equation for A is

A) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
B) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
C) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
D) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
E) <strong>A large mixing tank initially contains 1000 gallons of water in which 40 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 5 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 3 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
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6
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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7
In the LRC circuit problem in the text, the units for C, are

A) ohms
B) farads
C) amperes
D) henrys
E) coulombs
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8
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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9
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 is a solution of <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 are

A) 1 and 7
B) <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 and 6
C) 1 and 6
D) 1 and <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7
E) <strong>The values of m for which is a solution of are</strong> A) 1 and 7 B) and 6 C) 1 and 6 D) 1 and E) and 7 and 7
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10
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 is a solution of <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 are

A) 4 and <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5
B) <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5 and <strong>The values of m for which is a solution of are</strong> A) 4 and B) and C) 3 and 6 D) 4 and 5 E) 3 and 5
C) 3 and 6
D) 4 and 5
E) 3 and 5
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11
In the previous problem, after a long period of time, the temperature of the coffee approaches

A) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
B) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
C) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
D) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
E) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
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12
The values of m for which <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and is a solution of <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and are

A) <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and and 4
B) <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and and <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and
C) 3 and 4
D) 2 and 6
E) 3 and <strong>The values of m for which is a solution of are</strong> A) and 4 B) and C) 3 and 4 D) 2 and 6 E) 3 and
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13
The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) , as a function of time, t, is

A) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
B) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
C) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
D) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
E) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 5000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
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14
The values of c for which <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 is a constant solution of <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 are

A) 1 and 6
B) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 and 6
C) 1 and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3
D) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 6 B) and 6 C) 1 and D) and 3 E) 2 and 3 and 3
E) 2 and 3
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15
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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16
In the falling body problem, the units of acceleration might be

A) centimeters per second
B) feet per second
C) feet per second per second
D) kilograms per centimeter
E) kilograms per centimeter per second
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17
In the LRC circuit problem in the text, R stands for

A) capacitance
B) resistance
C) current
D) inductance
E) charge on the capacitor
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18
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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19
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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20
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) is <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E) , where <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E)

A) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E)
B) 3
C) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E)
D) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E)
E) <strong>The solution of the initial value problem is , where </strong> A) B) 3 C) D) E)
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21
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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22
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 is a solution of <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 are

A) 2 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5 and <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 5 D) 2 and 3 E) 1 and 5
C) 3 and 5
D) 2 and 3
E) 1 and 5
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23
The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) and one minute later, it is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) . The ambient temperature of the room is <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) . If <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E) represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is

A) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E)
B) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E)
C) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E)
D) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E)
E) <strong>The temperature of a cup of coffee obeys Newton's law of cooling. The initial temperature of the coffee is and one minute later, it is . The ambient temperature of the room is . If represents the temperature of the coffee at time t, the correct differential equation for the temperature with side conditions is</strong> A) B) C) D) E)
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24
The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E) , as a function of time, t, is

A) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
B) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
C) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
D) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
E) <strong>The population of a town increases at a rate proportional to its population. Its initial population is 1000. The correct initial value problem for the population, , as a function of time, t, is</strong> A) B) C) D) E)
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25
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 is a solution of <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 are

A) 2 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5 and <strong>The values of m for which is a solution of are</strong> A) 2 and 4 B) and C) 3 and 4 D) 2 and 3 E) 1 and 5
C) 3 and 4
D) 2 and 3
E) 1 and 5
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26
In the LRC circuit problem in the text, C stands for

A) capacitance
B) resistance
C) current
D) inductance
E) charge on the capacitor
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27
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1 , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1
C) 3
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) 3 D) E) 1
E) 1
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28
The values of c for which <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 is a constant solution of <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 are

A) 1 and 4
B) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3
C) 1 and <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3
D) <strong>The values of c for which is a constant solution of are</strong> A) 1 and 4 B) and C) 1 and D) and 3 E) 1 and 3 and 3
E) 1 and 3
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29
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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30
In the LRC circuit problem in the text, the units of inductance, L, are

A) ohms
B) farads
C) amperes
D) henrys
E) coulombs
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31
The solution of the initial value problem <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 is <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1 , where <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1

A) 2
B) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
C) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
D) <strong>The solution of the initial value problem is , where </strong> A) 2 B) C) D) E) 1
E) 1
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32
The values of m for which <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 is a solution of <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 are

A) 1 and 4
B) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 and 4
C) 2 and 3
D) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 and <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5
E) <strong>The values of m for which is a solution of are</strong> A) 1 and 4 B) and 4 C) 2 and 3 D) and E) and 5 and 5
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33
In the previous problem, after a long period of time, the temperature of the coffee approaches

A) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
B) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
C) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
D) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
E) <strong>In the previous problem, after a long period of time, the temperature of the coffee approaches</strong> A) B) C) D) E)
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34
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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35
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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36
In the previous problem, over a long period of time, the total amount of salt in the tank will approach

A) 30 pounds
B) 50 pounds
C) 100 pounds
D) 200 pounds
E) 300 pounds
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37
In the falling body problem, the units of acceleration might be

A) meters per second
B) feet per second
C) meters per second per second
D) kilograms per meter
E) kilograms per meter per second
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38
A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E) represents the amount of salt in the tank at time t, the correct differential equation for A is

A) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
B) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
C) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
D) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
E) <strong>A large mixing tank initially contains 100 gallons of water in which 30 pounds of salt have been dissolved. Another brine solution is pumped into the tank at the rate of 4 gallons per minute, and the resulting mixture is pumped out at the same rate. The concentration of the incoming brine solution is 2 pounds of salt per gallon. If represents the amount of salt in the tank at time t, the correct differential equation for A is</strong> A) B) C) D) E)
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39
The initial value problem <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E) has a unique solution guaranteed by Theorem 1.1 if

A) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
B) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
C) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
D) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
E) <strong>The initial value problem has a unique solution guaranteed by Theorem 1.1 if</strong> A) B) C) D) E)
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40
The differential equation <strong>The differential equation is</strong> A) first order linear B) second order linear C) third order linear D) first order nonlinear E) second order nonlinear is

A) first order linear
B) second order linear
C) third order linear
D) first order nonlinear
E) second order nonlinear
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