at time t, the position of a body moving along the s-axis is s=t^3-12t^2+36t m. find the totaldistance traveled by the body from t=0 to t=3
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
at time t,the position of a body moving along the s-axis is s=t^3-12t^2+36t m.a)find the bodys acceleration each time the velocity is 0b)find the bodys speed each time the acceleration is 0c)find the total distance traveled by the body from t=0 to t=3question #2
S The function s = 12 - 91? + 27t, Osts 4, gives the position of a body moving on a coordinate line, with sin meters and t in seconds. a. Find the body's displacement and average velocity for the given time interval b. Find the body's speed and acceleration at the endpoints of the interval. c. When, if ever, during the interval does the body change direction? 3.4.7 At time t, the position of a body moving along the...
I tried to do the practice problem but I don't know what I am doing wrong. 6. 12 points OSUniPhys1 3.2.WA 019. My Notes Ask Your Teacher The position of a particle moving along the x axis with a constant acceleration may be determined from the expression x(t) = b + c(t-2 s)2, where b = 4.00 m, c = 6.00 m/s2, and x will be in meters when t is in seconds. Determine the following. (Where applicable, indicated direction...
An object moves along a line where s(t) = t^3 − 12t^2 + 36t − 30 (where s(t) is in feet and t in seconds). 1) When is the velocity 0? 2) When is the velocity positive? 3) When is the object moving to the left? 4) When is the acceleration positive? 5) Sketch a picture of its motion. Please label the numbers of the answers.
3. Use implicit differentiation to find dx at at the given point P. 7 tan^x + sinAy =* ;P (0,7) 4. At time t, the position of a body moving along the s-axis is s = t3 - 15t + 48 m. a. Find the body's acceleration each time the velocity is zero. b. Find the body's speed each time the acceleration is zero.
7. A body of mass m-1kg initially is at position xo- -1m and starts moving away from the origin with speed to = 10m/sec. It is moving along the z axis under the influence of three forces (i) an attractive force towards the origin which is 8 times the position of the body (ii) the air resistance which is 6 times the velocity of the body; 160 (iii) and the kinetic friction with coefficient μ (a) The initial value problem...
1095 (1999AB, Calculator). A particle moves along the y-axis with velocity given by v(t) = t sin(t?) for t 0. a) In which direction (up or down) is the particle moving at time t = 1.5? Why? b) Find the acceleration of the particle at time t = 1.5. Is the velocity of the particle increasing at t = 1.5? c) Given that y(t) is the position of the particle at time t and that y(0) = 3, find y(2)....
Problem #1 (35 Points) Given The velocity of a particle as it moves along a straight line is given by v (-12+36t-6t2) ft/s, where t is in seconds. At the initial condition ( 0), so 2 ft. Find a) The acceleration of the particle as a function of time. b) The acceleration of the particle when -6 seconds. c) The position of the particle as a function of time. d) The position of the particle when -6 seconds. e) The...
A particle is moving with acceleration a(t) 36t +16. its position at time t0 is s(0) 12 and its velocity at timet0 is (0)-1. What is its position at time t- 12? Preview A particle is moving with acceleration a(t) 36t +16. its position at time t0 is s(0) 12 and its velocity at timet0 is (0)-1. What is its position at time t- 12? Preview
1. At time t, the position of a body moving along the s-axis is s= t3 – 9t2 +24t m. Give formulas for the body’s velocity and acceleration at time t. Find the body’s acceleration each time the velocity is zero. Find the body’s speed each time the acceleration is zero.