An amusement park ride rotates around a fixed axis such that the angular position of a point on the ride follows the equation: θ(t) = a + bt2 – ct3 where a = 0.3 rad, b = 0.85 rad/s2 and c = 0.035 rad/s3

Question

01-03-2018
Mathematics

contestada

An amusement park ride rotates around a fixed axis such that the angular position of a point on the ride follows the equation: θ(t) = a + bt2 – ct3 where a = 0.3 rad, b = 0.85 rad/s2 and c = 0.035 rad/s3

Respuesta :

Otras preguntas

NO LINKS OR ELSE YOU'LL BE REPORTED!Only answer if you're very good at English.Match each sentence part to the question it answers.

Dana frequently joins people in online discussion boards and forums. Which of her habits should she change to maintain proper netiquette?

Can a ray's letters be put backwards?

Cuando el cuerpo es atacado por un patógeno se activa el reconocimiento de su antígeno?

help me with number 3 please

Find the sum of the first five terms of the geometric series 50 + 25 + 12.5 +

How could I solve this equation by dividing first? 4(x+7)=40

What is the missing number in the pattern? 4, ____, 18, 25, 32

Which relation is a function? {(5, 0), (0, 1), (5, 2), (4,4)} {(0, 1), (−4, 1), (4, 2), (−4,−1)} {(3, 2), (2,1), (−1, 2), (3,3)} {(1, 2), (2,4), (−1, 2), (0,3)}

Help me please spanish

Demiurgos Demiurgos · Answer 1 · 2018-03-10T18:45:56+01:00

I found a missing question online. What is the magnitude of the angular displacement of the ride in radians between times t=0 and t= t1?
We can imagine our ride traveling from the starting point A to some point B (at t=1s).
We can find the angle of both points, and when we subtract them we get angular displacement.
[tex]A: \theta(0)=a\\ B: \theta(1)=a+b(1)^2-c(1)^3=a+b-c[/tex]
Our angular displacement is:
[tex]\Delta\theta=\theta(1)-\theta(0)=a+b-c-a=b-c=0.85-0.035=0.815 rad[/tex]