A car moving in a straight line has a velocity defined by v= (4t^3+3t^2) ft/s, where t is in seconds. Determine its position in m & acceleration in km/hr^2 when t= 2s. Assuming t= 0 and s=0. OA) 4. 317 m & 234 x 10^3 km/hr^2 OB) 5.317 m & 235 x 10^3 km/hr^2 OC) 6. 317 m & 236 x 10^3 km/hr^2 OD) 7. 317 m & 237 x 10^3 km/hr^2 OE) 8. 317 m & 238 x 10^3 km/hr^2
A car moving in a straight line has a velocity defined by v= (4t^3+3t^2) ft/s, where t is in seconds. Determine its position in m & acceleration in km/hr^2 when t= 2s. Assuming t= 0 and s=0. OA) 4. 317 m & 234 x 10^3 km/hr^2 OB) 5.317 m & 235 x 10^3 km/hr^2 OC) 6. 317 m & 236 x 10^3 km/hr^2 OD) 7. 317 m & 237 x 10^3 km/hr^2 OE) 8. 317 m & 238 x 10^3 km/hr^2
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:A car moving in a straight line has a velocity defined by v= (4t^3+3t^2)
ft/s, where t is in seconds. Determine its position in m & acceleration in
km/hr^2 when t= 2s. Assuming t= 0 and s=0.
OA) 4. 317 m & 234 x 10^3 km/hr^2
O B) 5.317 m & 235 x 10^3 km/hr^2
OC) 6. 317 m & 236 x 10^3 km/hr^2
OD) 7. 317 m & 237 x 10^3 km/hr^2
OE) 8. 317 m & 238 x 10^3 km/hr^2
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