If the plane is starting from rest, then the acceleration <em>a</em> that it needs in order to speed up to 324 km/h = 90.0 m/s over a distance of 1.35 km = 1350 m satisfies
(90.0 m/s)² = 2<em>a</em> (1350 m) ==> <em>a</em> = 3.00 m/s²
(use the kinematic equation, <em>v</em> ² - <em>v₀</em>² = 2<em>a</em> ∆<em>x</em>)
and the amount of time <em>t</em> needed to reach this speed is such that
90.0 m/s = (3.00 m/s²) <em>t</em> ==> <em>t</em> = 30.0 s
(<em>v</em> = <em>v₀</em> + <em>at </em>)
Answer:
so they have none left if they both eat half
36 x 11 = 396
There are 396 total pages.
Hope This Helps You!
Good Luck Studying :)
Answer:
m = F / a is the answer
Step-by-step explanation:
F = ma
m = F / a
First off there is not any choices, second off the answer is it would take
165.5 minutes