5. A car drives down a straight farm road. Its position x from a stop sign is described by the following equation: x(t) = At² - Bt³ where A = 2.14 m/s² and B=0.0770 m/s³. Use this information to calculate the car's a. average velocity from t=0 to t = 3.00 s b. instantaneous velocity at t = 0 and also at t = 3.00 s C. average acceleration from t=0 tot = 3.00 s d. instantaneous acceleration at t = 0 and also at t = 3.00 s
5. A car drives down a straight farm road. Its position x from a stop sign is described by the following equation: x(t) = At² - Bt³ where A = 2.14 m/s² and B=0.0770 m/s³. Use this information to calculate the car's a. average velocity from t=0 to t = 3.00 s b. instantaneous velocity at t = 0 and also at t = 3.00 s C. average acceleration from t=0 tot = 3.00 s d. instantaneous acceleration at t = 0 and also at t = 3.00 s
Physics for Scientists and Engineers: Foundations and Connections
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Author:Katz, Debora M.
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Problem 11PQ: CASE STUDY On planet Betatron, mass is measured in bloobits and length in bots. You are the Earth...
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![5. A car drives down a straight farm road. Its position x from a stop sign is described by the following
equation:
x(t) = At² Bt³
where A = 2.14 m/s² and B = 0.0770 m/s³. Use this information to calculate the car's
a. average velocity from t = 0 to t = 3.00 s
b. instantaneous velocity at t = 0 and also at t = 3.00 s
C. average acceleration from t = 0 to t = 3.00 s
d. instantaneous acceleration at t = 0 and also at t = 3.00 s](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F278fbf48-8175-4c44-ac0e-2265809c567f%2F2733761a-7eb3-4fc7-9d43-6e952bde1bfa%2F8w3j4mh_processed.png&w=3840&q=75)
Transcribed Image Text:5. A car drives down a straight farm road. Its position x from a stop sign is described by the following
equation:
x(t) = At² Bt³
where A = 2.14 m/s² and B = 0.0770 m/s³. Use this information to calculate the car's
a. average velocity from t = 0 to t = 3.00 s
b. instantaneous velocity at t = 0 and also at t = 3.00 s
C. average acceleration from t = 0 to t = 3.00 s
d. instantaneous acceleration at t = 0 and also at t = 3.00 s
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