![\"\"](\"/userfiles/image/steps_images/step1.JPG\")
(a)
\The position function of the particle is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=47a5fb8195d7cffcf0b6d813bfd49e59.png\")
.
The velocity function is the derivative of the position function.
\Consider ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=47a5fb8195d7cffcf0b6d813bfd49e59.png\")
.
Apply derivative on each side with respect to ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=a16a536fef06fc1158565c7288e36387.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=9d2428e0f5c0cae0d2c4c650eecd3686.png\")
![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8357c0b5f41c50c5c85afc61daf6c11e.png\")
Velocity of the particle is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=0155f8051abfdc75666aa927cbbbc3a1.png\")
m/sec.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=5e454cc102d614444fd9802973d205d6.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=f6157f658efb73e917a8c0eec972b091.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=3043b76f4e2bbd443c1b6c4a0ec07800.png\")
, ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=56825bd34db7cec9102e27af79573770.png\")
and ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=7ff671e8df71883d253dfb54af6c44c6.png\")
.
Time cannot be negative, hence ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=7ff671e8df71883d253dfb54af6c44c6.png\")
is not considered.
At ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=3043b76f4e2bbd443c1b6c4a0ec07800.png\")
, the particle is at rest.
Consider ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=56825bd34db7cec9102e27af79573770.png\")
.
Velocity of the particle is m/sec at sec.
\
![\"\"](\"/userfiles/image/steps_images/step2.JPG\")
(b)
\Consider .
Acceleration is derivative of the velocity function.
\![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=1076e1dd1bcdc0d965e63c6f11ceccd4.png\")
Find time when acceleration of the particle is zero.
\![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=93f5999a1f14155d1b91e45c9712445c.png\")
Roots of the quadratic function ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=023bd056e767a7d79c1f5d5b1b752698.png\")
are ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=98ad38c14d3645b671ab82b6c14a4021.png\")
.
Here ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=3e17fdccbeed9d9f3ca27b05dfcab799.png\")
and ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=cbd3f07a2c8ff259b1e62efcc9517fb5.png\")
.
Substitute above values in .
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=add3d102eb2ec39bb35e61e00d66024d.png\")
Therefore acceleration is zero at ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=a9f02321818de3735239bf70d69f4843.png\")
sec.
Velocity reaches maximum after this sec and thereafter moves with constant velocity.
\
![\"\"](\"/userfiles/image/steps_images/solution.JPG\")
(a) Velocity of the particle is m/sec at sec.
(b) The acceleration is zero at sec.
Velocity reaches maximum after this sec and moves with constant velocity.