The probability of having less than 3 accidents in a year
2 answers:
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Let the x(t) represent the motion of the spring as a function of time, t.
The length of the oscillating spring varies from a minimum of 10 cm to a maximum of 14 cm.
Therefore its amplitude is A = (14 - 10)/2 = 2.
When t = 0 s, x = 12 cm.
Therefore the function is of the form
x(t) = 2 sin(bt) + 12
At t=0, x(t) is decreasing, and it reaches its minimum value when t = 1.2 s.
Therefore, a quarter of the period is 1.2 s.
The period is given by
T/4 = 1.2
T = 4.8 s
That is,
b = (2π)/T = (2π)/4.8 = π/2.4 = 1.309
The function is
x(t) = 2 sin(1.309t) + 12
A plot of x(t) is shown below.
When x(t) = 13.5, obtain
2 sin(1.309t) + 12 = 13.5
sin(1.309t) = (13.5 - 12)/2 = 0.75
1.309t = sin⁻¹ 0.75 = 0.8481 or π - 0.8481
t = 0.8481/1.309 or t = (π - 0.8481)/1.309
= 0.649 or 1.751
The difference in t is 1.751 - 0.649 = 1.1026.
This difference occurs twice between t=0 and t=8 s.
Therefore the spring length is greater than 13.5 cm for 2*1.1026 = 2.205 s.
Answer:
Between t=0 and t=8, the spring is longer than 13.5 cm for 2.205 s.
The length of the oscillating spring varies from a minimum of 10 cm to a maximum of 14 cm.
Therefore its amplitude is A = (14 - 10)/2 = 2.
When t = 0 s, x = 12 cm.
Therefore the function is of the form
x(t) = 2 sin(bt) + 12
At t=0, x(t) is decreasing, and it reaches its minimum value when t = 1.2 s.
Therefore, a quarter of the period is 1.2 s.
The period is given by
T/4 = 1.2
T = 4.8 s
That is,
b = (2π)/T = (2π)/4.8 = π/2.4 = 1.309
The function is
x(t) = 2 sin(1.309t) + 12
A plot of x(t) is shown below.
When x(t) = 13.5, obtain
2 sin(1.309t) + 12 = 13.5
sin(1.309t) = (13.5 - 12)/2 = 0.75
1.309t = sin⁻¹ 0.75 = 0.8481 or π - 0.8481
t = 0.8481/1.309 or t = (π - 0.8481)/1.309
= 0.649 or 1.751
The difference in t is 1.751 - 0.649 = 1.1026.
This difference occurs twice between t=0 and t=8 s.
Therefore the spring length is greater than 13.5 cm for 2*1.1026 = 2.205 s.
Answer:
Between t=0 and t=8, the spring is longer than 13.5 cm for 2.205 s.