From your earlier questions, we found
so the wave has amplitude √29. The weight's maximum negative position from equilibrium is then -√29, so you are solving for <em>t</em> in the given interval for which
Divide both sides by √29:
Take the inverse sine of both sides, noting that we get two possible solution sets because we have
and the sine wave has period 2π, so .
OR
where <em>n</em> is any integer.
Now solve for <em>t</em> :
OR
We get solutions between 0 and 0.5 when <em>n</em> = 0 of <em>t </em>≈ 0.196946 and <em>t</em> ≈ 0.363613.
your answer is 8 fluid ounces:)
Beuyer keeps Zurich time even while closing a deal in Shanghai
is the correct answer
Answer:
Step-by-step explanation:
D=R*T
d=665.5
r=(59+62)/2
665.5=(59+62)/2*T
665.5=60.5*t
t=11
each driver drove 5.5 hours.