Newton’s second law of motion Quantities: For an object of mass m Force F Velocity v (t ) at time t Displacement y = y (t ) Newton’s law: m dv dt = F Differential equation: Since v = dy dt , we get m d 2 y dt 2 = F Samy T. First order Differential equations 4 / 101
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Newton’s second law of motion
Quantities: For an object of mass m
Force F
Velocity v(t) at time t
Displacement y = y(t)
Newton’s law:m
dv
dt= F
Di�erential equation: Since v = dydt , we get
md
2y
dt2 = F
Samy T. First order Di�erential equations 4 / 101
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Spring force
Physical system: spring-mass with no friction
Hooke’s law: The spring force is given by
Fs = ≠k y
Samy T. First order Di�erential equations 5 / 101
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Second order di�erential equation
Di�erential equation:Equation involving the derivatives of a functionIn particular the unknown is a function
Equation for spring-mass system:According to Newton’s and Hooke’s laws
md
2y
dt2 = ≠ky (1)
Samy T. First order Di�erential equations 6 / 101
Second order di�erential equation (2)
Equation for spring-mass system (2): Set
Ê =Û
k
m
Then (1) is equivalent to
d2y
dt2 + Ê2y = 0.
Solution: Of the form
y(t) = A cos(Êt ≠ „).
Samy T. First order Di�erential equations 7 / 101
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Order of a di�erential equation
Definition: Order of a di�erential equation= Order of highest derivative appearing in equation
Examples:Second law of motion, spring: second orderFirst order: y