In a boat race, boat A is leading boat 8 by 50 m and both boats are traveling at a constant speed of 180 km/h. At t=0, the boats accelerate at constant rates. Knowing that when B passes A, 1=8s and v₁ = 225 km/h. determine (a) the acceleration of A. (b) the acceleration of B. aA=0.563 (m/s2), aB = 2.13 (m/s2) O aA=1.563 (m/s2), aB = 3.13 (m/s2) aA=2.563 (m/s2), aB = 4.13 (m/s2) O aA=3.563 (m/s2), aB = 5.13 (m/s2) = 5.13 (m/s2) O
In a boat race, boat A is leading boat 8 by 50 m and both boats are traveling at a constant speed of 180 km/h. At t=0, the boats accelerate at constant rates. Knowing that when B passes A, 1=8s and v₁ = 225 km/h. determine (a) the acceleration of A. (b) the acceleration of B. aA=0.563 (m/s2), aB = 2.13 (m/s2) O aA=1.563 (m/s2), aB = 3.13 (m/s2) aA=2.563 (m/s2), aB = 4.13 (m/s2) O aA=3.563 (m/s2), aB = 5.13 (m/s2) = 5.13 (m/s2) O
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter3: Motion Along A Straight Line
Section: Chapter Questions
Problem 42P: An airplane, starting from rest, move down the runway at constant for 18 s and then takes off at a...
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![In a boat race, boat A is leading boat B by 50 m
and both boats are traveling at a constant.
speed of 180 km/h. At t=0, the boats
accelerate at constant rates. Knowing that
when B passes A, 1=8s and v₁ = 225 km/h.
determine (a) the acceleration of A. (b) the
acceleration of B.
aA=0.563 (m/s2), aB = 2.13 (m/s2) O
aA=1.563 (m/s2), aB = 3.13 (m/s2)
aA=2.563 (m/s2), aB = 4.13 (m/s2)
aA=3.563 (m/s2), aB = 5.13 (m/s2) O](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F06d850ef-f185-4570-af31-2587abc472a9%2F70ccbd44-3bc1-4971-8030-ad8e9f51d913%2Fhb5u9ic_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In a boat race, boat A is leading boat B by 50 m
and both boats are traveling at a constant.
speed of 180 km/h. At t=0, the boats
accelerate at constant rates. Knowing that
when B passes A, 1=8s and v₁ = 225 km/h.
determine (a) the acceleration of A. (b) the
acceleration of B.
aA=0.563 (m/s2), aB = 2.13 (m/s2) O
aA=1.563 (m/s2), aB = 3.13 (m/s2)
aA=2.563 (m/s2), aB = 4.13 (m/s2)
aA=3.563 (m/s2), aB = 5.13 (m/s2) O
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