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Deck 16: Second Order Differential Equations
ملء الشاشة (f)
سؤال
Identify the general solution of the the differential equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Solve the initial value problem 
, 
.
A)
B)
C)
D)
, .A)
B)
C)
D)
سؤال
Identify the general solution of the the differential equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Solve the initial value problem. 
سؤال
A 0.15 kg mass hangs on a spring with a 2 N m-1 force constant and its motion is damped proportional to its velocity with proportionality constant 0.2 kg s-1. If the system is subjected to an external variable-frequency vibration described as 
newtons, what will be the amplitude of the steady-state oscillation?
A) 2.03 m
B) 4.14 m
C) 0.12 m
D) 0.00 m
newtons, what will be the amplitude of the steady-state oscillation?A) 2.03 m
B) 4.14 m
C) 0.12 m
D) 0.00 m
سؤال
Consider solutions to the second order differential equation 
in which m, c, and k are positive constants. Which of the following pairs of graphs might correspond to the sets of constants m = 1.00, c = 0.80, and k = 1.20 (blue graph), and m = 1.00, c = 0.08, and k = 1.20 (red graph) ?
A)
B)
C)
D)
in which m, c, and k are positive constants. Which of the following pairs of graphs might correspond to the sets of constants m = 1.00, c = 0.80, and k = 1.20 (blue graph), and m = 1.00, c = 0.08, and k = 1.20 (red graph) ?A)
B)
C)
D)
سؤال
A spring is stretched 5 cm by a 1-kg mass. The mass is set in motion from its equilibrium position with an upward velocity of 2 m/s. The damping constant equals 
Find an equation for the position of the mass at any time t.
Find an equation for the position of the mass at any time t. سؤال
Determine the form of a particular solution of the equation. 
A)
B)
C)
D)
A)
B)
C)
D)
سؤال
Identify the form of a particular solution to the equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Find the general solution of 
, given the particular solution 
.
A)
B)
C)
D)
, given the particular solution .A)
B)
C)
D)
سؤال
Solve the initial value problem 
, 
.
A)
B)
C)
D)
, .A)
B)
C)
D)
سؤال
A certain spring is at rest when stretched 0.392 m by a 2.0 kg mass. Which function describes the motion of the mass if it is pulled down 0.25 m and released without imparting any initial velocity at time t = 0? Other helpful information: the motion is not damped; use 9.8 m s-2 as the acceleration due to gravity; and consider the zero position to be the rest position of the spring with the mass attached, and downward motion defines the positive x direction.
A)
B)
C)
D)
A)
B)
C)
D)
سؤال
Identify the form of a particular solution to the equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Find the general solution of 
, given the particular solution 
.
A)
B)
C)
D)
, given the particular solution .A)
B)
C)
D)
سؤال
A 2.0 kg mass hangs on a spring with a 1.1 newton/meter force constant and its motion is not damped. If the system is subjected to an external variable-frequency vibration described as 
newtons, at what frequency, 
, will the external vibration and the spring system be in resonance?
A) 0.55 s-1
B) 0.74 s-1
C) 1.82 s-1
D) 1.35 s-1
newtons, at what frequency, , will the external vibration and the spring system be in resonance?A) 0.55 s-1
B) 0.74 s-1
C) 1.82 s-1
D) 1.35 s-1
سؤال
Solve the initial value problem 
, 
.
A)
B)
C)
D)
, .A)
B)
C)
D)
سؤال
Find the general solution of the equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Find the general solution of the differential equation. 
A)
B)
C)
D)
A)
B)
C)
D)
سؤال
Identify the general solution of the the differential equation 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
For 
find the steady-state solution and identify its amplitude and phase shift.
find the steady-state solution and identify its amplitude and phase shift. سؤال
A series circuit has a 0.15 henry inductor, a 350 ohm resistor, and a 0.00001 farad capacitor. There is an initial charge of 0.000001 coulombs, there is no initial current, and there is an applied voltage which is described as 
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
سؤال
A second order differential equaiton can be arranged to the form 
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor series expansion of a function y(x) is 
, one can differentiate the rearranged second order differential equation to evaluate coefficients of the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What does the fourth-degree Taylor polynomial look like for the solution to the equation 
if the initial conditions are 
?
A)
B)
C)
D)
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients of the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What does the fourth-degree Taylor polynomial look like for the solution to the equation if the initial conditions are ?A)
B)
C)
D)
سؤال
Find the recurrence relation for the general power series solution 
to the second order equation 
.
A)
B)
C)
D)
to the second order equation .A)
B)
C)
D)
سؤال
Suppose that the charge in a circuit satisfies the equation 
Find the gain of the circuit.
A)
B)
C)
D)
Find the gain of the circuit.A)
B)
C)
D)
سؤال
Identify the radius of convergence of the power series solutions about x = 0 of 
.
A)
B)
C)
D)
.A)
B)
C)
D)
سؤال
Identify the radius of convergence of the power series solutions about x = 0 of 
.
A) R = 0
B)
C) R =
D) R = 4
.A) R = 0
B)
C) R =
D) R = 4
سؤال
Solve the initial value problem 
, 
.
A)
B)
C)
D)
, .A)
B)
C)
D)
سؤال
For a pendulum of weight 4 pounds, length 0.75 ft, damping constant ![<strong>For a pendulum of weight 4 pounds, length 0.75 ft, damping constant and forcing function find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s<sup>-2</sup>.]</strong> A) amplitude: 0.500 ft; period: 1.738 rad B) amplitude: 0.250 ft; period: 0.869 rad C) amplitude: 0.299 ft; period: 0.524 rad D) amplitude: 0.598 ft; period: 1.047 rad <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6d_b591_84bc_476f4ce55b13_TB2342_11.jpg)
and forcing function ![<strong>For a pendulum of weight 4 pounds, length 0.75 ft, damping constant and forcing function find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s<sup>-2</sup>.]</strong> A) amplitude: 0.500 ft; period: 1.738 rad B) amplitude: 0.250 ft; period: 0.869 rad C) amplitude: 0.299 ft; period: 0.524 rad D) amplitude: 0.598 ft; period: 1.047 rad <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6d_b592_84bc_bb7c19e02aea_TB2342_11.jpg)
find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s-2.]
A) amplitude: 0.500 ft; period: 1.738 rad
B) amplitude: 0.250 ft; period: 0.869 rad
C) amplitude: 0.299 ft; period: 0.524 rad
D) amplitude: 0.598 ft; period: 1.047 rad
and forcing function find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s-2.]A) amplitude: 0.500 ft; period: 1.738 rad
B) amplitude: 0.250 ft; period: 0.869 rad
C) amplitude: 0.299 ft; period: 0.524 rad
D) amplitude: 0.598 ft; period: 1.047 rad
سؤال
A series circuit has a 0.2 henry inductor, a 490 ohm resistor, and a 0.000004 farad capacitor. There is an applied voltage which is described as 
. Identify the general solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the general solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
سؤال
A series circuit has a 0.1 henry inductor, a 330 ohm resistor, and a 0.000009 farad capacitor. There is an initial charge of 0.000002 coulombs, there is no initial current, and there is an applied voltage which is described as 
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
سؤال
Identify the pair of graphs that correspond most closely to the solutions of ![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_2ec8_84bc_5570d05417d2_TB2342_11.jpg)
with ![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_2ec9_84bc_afb08c789c05_TB2342_11.jpg)
, respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]
A)![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_2eca_84bc_ff244e133077_TB2342_11.jpg)
![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_2ecb_84bc_493932936daa_TB2342_11.jpg)
B)![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_2ecc_84bc_c97536648cf1_TB2342_11.jpg)
![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_55dd_84bc_3bbe7d582c08_TB2342_11.jpg)
C)![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_55de_84bc_a7f6458a0a32_TB2342_11.jpg)
![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_55df_84bc_c5e23f13c8d3_TB2342_11.jpg)
D)![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_55e0_84bc_a188d53bfb41_TB2342_11.jpg)
![<strong>Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]</strong> A) B) C) D) <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6c_55e1_84bc_09178c24ff13_TB2342_11.jpg)
with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]A)
B)
C)
D)
سؤال
Find the recurrence relation for the general power series solution 
to the second order equation 
.
A)
B)
C)
D)
to the second order equation .A)
B)
C)
D)
سؤال
A pendulum has length 0.20 meter. A bob is released from rest from a starting angle ![<strong>A pendulum has length 0.20 meter. A bob is released from rest from a starting angle . Find an equation for the position at any time t and find the amplitude and period of the motion. [The acceleration due to gravity is 9.8 m s<sup>-2</sup>.]</strong> A) amplitude: 0.15 m; period: 0.898 rad B) amplitude: 0.15 m; period: 0.449 rad C) amplitude: 0.3 m; period: 0.449 rad D) amplitude: 0.3 m; period: 0.898 rad <div style=padding-top: 35px>](https://d2lvgg3v3hfg70.cloudfront.net/TB2342/11eaa948_cd6d_8e80_84bc_6901c6d16ffa_TB2342_11.jpg)
. Find an equation for the position at any time t and find the amplitude and period of the motion. [The acceleration due to gravity is 9.8 m s-2.]
A) amplitude: 0.15 m; period: 0.898 rad
B) amplitude: 0.15 m; period: 0.449 rad
C) amplitude: 0.3 m; period: 0.449 rad
D) amplitude: 0.3 m; period: 0.898 rad
. Find an equation for the position at any time t and find the amplitude and period of the motion. [The acceleration due to gravity is 9.8 m s-2.]A) amplitude: 0.15 m; period: 0.898 rad
B) amplitude: 0.15 m; period: 0.449 rad
C) amplitude: 0.3 m; period: 0.449 rad
D) amplitude: 0.3 m; period: 0.898 rad
سؤال
A series circuit has an 0.1 henry inductor, a 300 ohm resistor, and a 10-4 farad capacitor. The initial charge on the capacitor is 10-6 coulombs, and there is no initial current nor applied voltage. Identify the function that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
A)
B)
C)
D)
سؤال
A second order differential equation can be arranged to the form 
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor-series expansion of a function y(x) is 
, one can differentiate the rearranged second order differential equation to evaluate coefficients in the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What is the coefficient of x4 in the Taylor polynomial expansion of the solution to the equation 
if the initial conditions are 
?
A)
B)
C)
D)
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor-series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients in the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What is the coefficient of x4 in the Taylor polynomial expansion of the solution to the equation if the initial conditions are ?A)
B)
C)
D)
سؤال
A series circuit has a 0.1 henry inductor, a 320 ohm resistor, and a 0.000006 farad capacitor. There is an initial charge of 0.000003 coulombs, there is no initial current, and there is an applied voltage which is described as 
. Identify the steady-state solution to the differential equation.
A)
B)
C)
D)
. Identify the steady-state solution to the differential equation.A)
B)
C)
D)
سؤال
Solve the initial value problem 
, 
.
A)
B)
C)
D)
, .A)
B)
C)
D)
سؤال
A series circuit has a 0.15 henry inductor, a 360 ohm resistor, and a 0.00001 farad capacitor. There is an initial charge of 0.000006 coulombs, there is no initial current, and there is an applied voltage which is described as 
. Identify the amplitude of the steady-state solution.
A) 0.000003
B) 0.000009
C) 0.35
D) 0.175
. Identify the amplitude of the steady-state solution.A) 0.000003
B) 0.000009
C) 0.35
D) 0.175
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ملء الشاشة (f)
Deck 16: Second Order Differential Equations
1
Identify the general solution of the the differential equation .
A)
B)
C)
D)
.A)
B)
C)
D)
C
2
Solve the initial value problem , .
A)
B)
C)
D)
, .A)
B)
C)
D)
A
3
Identify the general solution of the the differential equation .
A)
B)
C)
D)
.A)
B)
C)
D)
A
4
Solve the initial value problem.
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5
A 0.15 kg mass hangs on a spring with a 2 N m-1 force constant and its motion is damped proportional to its velocity with proportionality constant 0.2 kg s-1. If the system is subjected to an external variable-frequency vibration described as newtons, what will be the amplitude of the steady-state oscillation?
A) 2.03 m
B) 4.14 m
C) 0.12 m
D) 0.00 m
newtons, what will be the amplitude of the steady-state oscillation?A) 2.03 m
B) 4.14 m
C) 0.12 m
D) 0.00 m
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6
Consider solutions to the second order differential equation in which m, c, and k are positive constants. Which of the following pairs of graphs might correspond to the sets of constants m = 1.00, c = 0.80, and k = 1.20 (blue graph), and m = 1.00, c = 0.08, and k = 1.20 (red graph) ?
A)
B)
C)
D)
in which m, c, and k are positive constants. Which of the following pairs of graphs might correspond to the sets of constants m = 1.00, c = 0.80, and k = 1.20 (blue graph), and m = 1.00, c = 0.08, and k = 1.20 (red graph) ?A)
B)
C)
D)
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7
A spring is stretched 5 cm by a 1-kg mass. The mass is set in motion from its equilibrium position with an upward velocity of 2 m/s. The damping constant equals Find an equation for the position of the mass at any time t.
Find an equation for the position of the mass at any time t. فتح الحزمة
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8
Determine the form of a particular solution of the equation.
A)
B)
C)
D)
A)
B)
C)
D)
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9
Identify the form of a particular solution to the equation .
A)
B)
C)
D)
.A)
B)
C)
D)
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10
Find the general solution of , given the particular solution .
A)
B)
C)
D)
, given the particular solution .A)
B)
C)
D)
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11
Solve the initial value problem , .
A)
B)
C)
D)
, .A)
B)
C)
D)
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12
A certain spring is at rest when stretched 0.392 m by a 2.0 kg mass. Which function describes the motion of the mass if it is pulled down 0.25 m and released without imparting any initial velocity at time t = 0? Other helpful information: the motion is not damped; use 9.8 m s-2 as the acceleration due to gravity; and consider the zero position to be the rest position of the spring with the mass attached, and downward motion defines the positive x direction.
A)
B)
C)
D)
A)
B)
C)
D)
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13
Identify the form of a particular solution to the equation .
A)
B)
C)
D)
.A)
B)
C)
D)
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14
Find the general solution of , given the particular solution .
A)
B)
C)
D)
, given the particular solution .A)
B)
C)
D)
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15
A 2.0 kg mass hangs on a spring with a 1.1 newton/meter force constant and its motion is not damped. If the system is subjected to an external variable-frequency vibration described as newtons, at what frequency, , will the external vibration and the spring system be in resonance?
A) 0.55 s-1
B) 0.74 s-1
C) 1.82 s-1
D) 1.35 s-1
newtons, at what frequency, , will the external vibration and the spring system be in resonance?A) 0.55 s-1
B) 0.74 s-1
C) 1.82 s-1
D) 1.35 s-1
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16
Solve the initial value problem , .
A)
B)
C)
D)
, .A)
B)
C)
D)
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17
Find the general solution of the equation .
A)
B)
C)
D)
.A)
B)
C)
D)
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18
Find the general solution of the differential equation.
A)
B)
C)
D)
A)
B)
C)
D)
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19
Identify the general solution of the the differential equation .
A)
B)
C)
D)
.A)
B)
C)
D)
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20
For find the steady-state solution and identify its amplitude and phase shift.
find the steady-state solution and identify its amplitude and phase shift. فتح الحزمة
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21
A series circuit has a 0.15 henry inductor, a 350 ohm resistor, and a 0.00001 farad capacitor. There is an initial charge of 0.000001 coulombs, there is no initial current, and there is an applied voltage which is described as . Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
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22
A second order differential equaiton can be arranged to the form , and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients of the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What does the fourth-degree Taylor polynomial look like for the solution to the equation if the initial conditions are ?
A)
B)
C)
D)
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients of the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What does the fourth-degree Taylor polynomial look like for the solution to the equation if the initial conditions are ?A)
B)
C)
D)
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23
Find the recurrence relation for the general power series solution to the second order equation .
A)
B)
C)
D)
to the second order equation .A)
B)
C)
D)
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24
Suppose that the charge in a circuit satisfies the equation Find the gain of the circuit.
A)
B)
C)
D)
Find the gain of the circuit.A)
B)
C)
D)
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25
Identify the radius of convergence of the power series solutions about x = 0 of .
A)
B)
C)
D)
.A)
B)
C)
D)
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26
Identify the radius of convergence of the power series solutions about x = 0 of .
A) R = 0
B)
C) R =
D) R = 4
.A) R = 0
B)
C) R =
D) R = 4
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27
Solve the initial value problem , .
A)
B)
C)
D)
, .A)
B)
C)
D)
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28
For a pendulum of weight 4 pounds, length 0.75 ft, damping constant and forcing function find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s-2.]
A) amplitude: 0.500 ft; period: 1.738 rad
B) amplitude: 0.250 ft; period: 0.869 rad
C) amplitude: 0.299 ft; period: 0.524 rad
D) amplitude: 0.598 ft; period: 1.047 rad
and forcing function find the amplitude and period of the steady-state motion. [The acceleration due to gravity is 32 ft s-2.]A) amplitude: 0.500 ft; period: 1.738 rad
B) amplitude: 0.250 ft; period: 0.869 rad
C) amplitude: 0.299 ft; period: 0.524 rad
D) amplitude: 0.598 ft; period: 1.047 rad
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29
A series circuit has a 0.2 henry inductor, a 490 ohm resistor, and a 0.000004 farad capacitor. There is an applied voltage which is described as . Identify the general solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the general solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
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30
A series circuit has a 0.1 henry inductor, a 330 ohm resistor, and a 0.000009 farad capacitor. There is an initial charge of 0.000002 coulombs, there is no initial current, and there is an applied voltage which is described as . Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
. Identify the solution to the differential equation that describes the charge on the capacitor as a function of time.A)
B)
C)
D)
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31
Identify the pair of graphs that correspond most closely to the solutions of with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]
A)
B)
C)
D)
with , respectively. [The function y(t) is plotted on the vertical axes and t is plotted on the horizontal axes.]A)
B)
C)
D)
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32
Find the recurrence relation for the general power series solution to the second order equation .
A)
B)
C)
D)
to the second order equation .A)
B)
C)
D)
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33
A pendulum has length 0.20 meter. A bob is released from rest from a starting angle . Find an equation for the position at any time t and find the amplitude and period of the motion. [The acceleration due to gravity is 9.8 m s-2.]
A) amplitude: 0.15 m; period: 0.898 rad
B) amplitude: 0.15 m; period: 0.449 rad
C) amplitude: 0.3 m; period: 0.449 rad
D) amplitude: 0.3 m; period: 0.898 rad
. Find an equation for the position at any time t and find the amplitude and period of the motion. [The acceleration due to gravity is 9.8 m s-2.]A) amplitude: 0.15 m; period: 0.898 rad
B) amplitude: 0.15 m; period: 0.449 rad
C) amplitude: 0.3 m; period: 0.449 rad
D) amplitude: 0.3 m; period: 0.898 rad
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34
A series circuit has an 0.1 henry inductor, a 300 ohm resistor, and a 10-4 farad capacitor. The initial charge on the capacitor is 10-6 coulombs, and there is no initial current nor applied voltage. Identify the function that describes the charge on the capacitor as a function of time.
A)
B)
C)
D)
A)
B)
C)
D)
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35
A second order differential equation can be arranged to the form , and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor-series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients in the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What is the coefficient of x4 in the Taylor polynomial expansion of the solution to the equation if the initial conditions are ?
A)
B)
C)
D)
, and one can find the third and higher derivatives of y by simply differentiating this equation. Since a Taylor-series expansion of a function y(x) is , one can differentiate the rearranged second order differential equation to evaluate coefficients in the Taylor polynomial, if one is either given or can solve for the initial condition y(0) and y'(0). What is the coefficient of x4 in the Taylor polynomial expansion of the solution to the equation if the initial conditions are ?A)
B)
C)
D)
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36
A series circuit has a 0.1 henry inductor, a 320 ohm resistor, and a 0.000006 farad capacitor. There is an initial charge of 0.000003 coulombs, there is no initial current, and there is an applied voltage which is described as . Identify the steady-state solution to the differential equation.
A)
B)
C)
D)
. Identify the steady-state solution to the differential equation.A)
B)
C)
D)
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37
Solve the initial value problem , .
A)
B)
C)
D)
, .A)
B)
C)
D)
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38
A series circuit has a 0.15 henry inductor, a 360 ohm resistor, and a 0.00001 farad capacitor. There is an initial charge of 0.000006 coulombs, there is no initial current, and there is an applied voltage which is described as . Identify the amplitude of the steady-state solution.
A) 0.000003
B) 0.000009
C) 0.35
D) 0.175
. Identify the amplitude of the steady-state solution.A) 0.000003
B) 0.000009
C) 0.35
D) 0.175
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