Respond to this Question
Similar Questions

College Math
Another question which is confusing. The position of an object moving in a straight line is give by s=2t^23t, where is s in metres and t is the time in seconds the object has been in motion.. how long will it is take the object
asked by HM on September 29, 2011 
Algebra
Can someone help me? Do I subtract 17 on both sides and then............ The position of an object moving in a straight line is given by s=2t^23t, where s is in meters and t is the time in seconds the object has been in motion.
asked by Megan on March 18, 2008 
Algebra
HELP! an object moves in a straight line given by s=2x^23t where s is in meters and t is the time in seconds the object is in motion. how long to nearest tenth will it take to move 17 meters? my attempt s=2t^23t 17=2t^23t
asked by Bethany on March 21, 2008 
algebra
The formula for the height of a fallinis shown below, where h is the height of the object in meters, t is the time in seconds, and k is the height, in meters, from which the object began its fall. h=4.9f+k If aq rock is droppped
asked by curtina blue on September 22, 2010 
math
Two horizontal forces act on a wagon, 550N forward and 300N backwards. What force is need to produce a net force of zero? 500 N 300N > Object
asked by johanna on February 5, 2016 
physics
The position of a 0.43 kg object attached to a spring is described by [x = (0.49 m) cos(1.25πt)] a) What is the amplitude of oscillations in m? b) What is in meters/second the maximum speed of the oscillating object? Answer in
asked by Serena on November 11, 2014 
physics
The position of a 0.31 kg object attached to a spring is described by [x = (0.85 m) sin(2.37πt + 0.35)] a) What is the amplitude of oscillations in m? b) What is in meters/second the maximum speed of the oscillating object?
asked by Serena on November 11, 2014 
algebra
The formula below can be used to find the distances (d) traveled by an object, where v represents the initial velocity of the object, t represents the time, in seconds, and a represents the acceleration, in meters per second
asked by curtina blue on September 22, 2010 
Applied Physics
The velocity of an object is +47 meters per second at 3.0 seconds and is +65 meters per second at 12.0 seconds. The average acceleration of the object is 2.0 m/s to the fourth power
asked by EJ on May 14, 2011 
Physics
A single force acts on a 1.1 kg particlelike object in such a way that the position of the object as a function of time is given by x = 4.1t  3.6t2 + 4.5t3, with x in meters and t in seconds. Find the work done on the object by
asked by Robin on March 8, 2014