Acceleration

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Acceleration

Questions

Why is acceleration measured in meters / seconds squared?
An object uniformly accelerates from 15.0m/s west to 35.0m/s west. What is the rate of acceleration if the displacement during this time was 43.0m?
A rocket travelling at +88m/s is accelerated to +132m/s over a 15s interval. What is its displacement during this time?
An object travels 8.0m south in 3.2s while uniformly accelerating at a rate of 0.71m/s2 south. What was the initial velocity of the object?
A car slows from 22m/s to 3m/s with a constant acceleration of –2.1m/s2. How long does this require?
After traveling for 6.0 seconds, a runner reaches a speed of 10 m/s. What is the runner’s acceleration?
A helicopter’s speed increases from 25 m/s to 60 m/s in 5 seconds. What is the acceleration of this helicopter?
A cart rolling down an incline for 5.0 seconds has an acceleration of 4.0 m/s2. If the cart has a beginning speed of 2.0 m/s, what is its final speed?
How does centripetal acceleration differ from linear acceleration?
How does acceleration relate to distance?
How does acceleration change with time?
How does acceleration affect tension?
How does acceleration change during a free fall?
How does acceleration affect motion?
How do you calculate acceleration of gravity?
How can acceleration change the motion of an object?
How can acceleration be negative?
How is acceleration related to force?
How are acceleration, time and velocity related?
Why is acceleration affected by mass?
How is acceleration measured?
How is acceleration due to gravity calculated?
How is the acceleration of a moving object determined?
How does the acceleration of a moving object can be increased?
How is acceleration found from a velocity-time graph?
What is acceleration?
Question #c59ad
Question #574be
When is acceleration not constant?
Why is acceleration due to gravity constant?
How much acceleration can a human withstand?
How do you find acceleration from velocity?
How do you calculate the acceleration of a rocket?
How does acceleration relate to time?
A driver of a car traveling at 15.0 m/s applies the brakes, causing a uniform acceleration of -2.0 m/s^2. How long does it take the car to accelerate to a final speed of 10.0 m/s? How far has the car moved during the braking period?
Two objects move with initial velocity -9.15 m/s, final velocity 18.3 m/s, and constant accelerations.The first object has displacement 19.5 m. What is its acceleration? The second object travels a total distance of 22.5 m. What is its acceleration?
What is uniform acceleration?
Question #96f24
Question #df506
Question #c6d6a
How would you rework this equation #v_f^2= v_i^2 - 2*a*d# so that it solves for #a#?
Question #5a595
Question #444fe
Question #0a476
A race car starts from rest on a circular track of radius 400m . The car's speed increases at the constant rate of 0.500m/s^2 . At the point where the magnitudes of the centripetal and tangential accelerations are equal , determine the speed of the car ?
What is the relationship between acceleration and speed?
How does acceleration differ from force?
How does acceleration change with force?
In what ways can acceleration affect the motion of an object?
How is acceleration different from speed and velocity?
How does acceleration change as a car increases speed?
How does acceleration change as an object falls?
Question #6ab42
Question #fc13b
Question #6e96b
A car driving at 41m/s hits the brakes and comes to a stop in 4.8 seconds. What was the car's acceleration during this stop?
A car driving at 41m/s hits the brakes and comes to a stop in 4.8 seconds. How fast was it going after 2.4 seconds?
A man stands on a crane and throws a water balloon down at at 21 m/s. He finds that it takes 2.4s for the balloon to hit the ground. How fast is the water balloon travelling when it hits the ground?
A car traveling 58.5 km/h is 27.4 m from a barrier when the driver slams on the brakes. The car hits the barrier 2.18 s later. (a) What is the car's constant deceleration magnitude before impact? (b) How fast is the car traveling at impact ?
Question #93a60
A red car and a green car move toward each other in adjacent lanes and parallel to an x axis. At time t = 0, the red car is at xr = 0 and the green car is at xg = 216 m. If the red car has a constant velocity of 27.0 km/h ?
At the instant the traffic light turns green, an automobile starts with a constant acceleration a of 2.1 m/s^2. At the same instant a truck, traveling with a constant speed of 9.2 m/s, overtakes and passes the automobile ?
A pilot flies horizontally at 840 km/h, at height h = 48 m above initially level ground. However, at time t = 0, the pilot begins to fly over ground sloping upward at angle θ = 5.9° ?
On a dry road, a car with good tires may be able to brake with a constant deceleration of 5.74 m/s^2. (a) How long does such a car, initially traveling at 29.3 m/s, take to stop? (b) How far does it travel in this time ?
Two subway stops are separated by 1200 m. If a subway train accelerates at 1.4 m/s^2 from rest through the first half of the distance and decelerates at -1.4 m/s^2 through the second half, what are (a) its travel time and (b) its maximum speed ?
A car moving with constant acceleration covered the distance between two points 52.4 m apart in 5.96 s. Its speed as it passes the second point was 14.6 m/s. (a) At what prior distance from the first point was the car at rest?
In fission reactions, what causes the parent atom to divide in Different Proportions", for example Uranium divides into Barium and Krypton, why it does not divide into two atoms with same mass (118) or any other atoms other than #Ba# and #Kr# ?
Question #9d62a
How does the acceleration of an object depend on the net force acting on it if the total mass is constant?
To unload the truck, the man pushes the crate down the ramp, which is now angled at 13°, using a force of 503N. What is the acceleration of the crate down the ramp?
How to do it?
While sledding down a snowy hill Ed slowed down from 5 m/s to rest in a distance of 100 m. What was Ed's acceleration?
If an object is moving at #5 m/s# and accelerates to #12 m/s# over 8 seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #12 m/s# over 2 seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #60 m/s# over 5 seconds, what was the object's rate of acceleration?
If an object is moving at #4 m/s# and accelerates to #6 m/s# over 3 seconds, what was the object's rate of acceleration?
If an object is moving at #15 m/s# and accelerates to #19 m/s# over 4 seconds, what was the object's rate of acceleration?
If an object is moving at #1 m/s# and accelerates to #12 m/s# over 3 seconds, what was the object's rate of acceleration?
If an object is moving at #4 m/s# and accelerates to #16 m/s# over 3 seconds, what was the object's rate of acceleration?
If an object is moving at #3 m/s# and accelerates to #19 m/s# over 2 seconds, what was the object's rate of acceleration?
If an object is moving at #3 m/s# and accelerates to #51 m/s# over 12 seconds, what was the object's rate of acceleration?
If an object is moving at #5 m/s# and accelerates to #35 m/s# over 10 seconds, what was the object's rate of acceleration?
If an object is moving at #8 m/s# and accelerates to #32 m/s# over 6 seconds, what was the object's rate of acceleration?
If an object is moving at #12 m/s# and accelerates to #32 m/s# over 3 seconds, what was the object's rate of acceleration?
If an object is moving at #60 m/s# and accelerates to #145 m/s# over 5 seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #90 m/s# over 8 seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #60 m/s# over 8 seconds, what was the object's rate of acceleration?
If an object is moving at #0 ms^-1# and accelerates to #60 ms^-1# over #24/5# seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #60 m/s# over #34/5# seconds, what was the object's rate of acceleration?
If an object is moving at #0 m/s# and accelerates to #60 m/s# over #44/6# seconds, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #5 m/s# at #t=0# and moves a total of 15 m by #t=12#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #12 m/s# at #t=0# and moves a total of 145 m by #t=15#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #4 m/s# at #t=2# and moves a total of 25 m by #t=6#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 25 m by #t=8#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #12 m/s# at #t=0# and moves a total of 14 m by #t=12#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #1 m/s# at #t=0# and moves a total of 180 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #4 m/s# at #t=0# and moves a total of 18 m by #t=5#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 58 m by #t=6#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #4 m/s# at #t=0# and moves a total of 26 m by #t=9#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #9 m/s# at #t=0# and moves a total of 44 m by #t=3#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #4 m/s# at #t=0# and moves a total of 45 m by #t=3#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #6 m/s# at #t=0# and moves a total of 15 m by #t=2#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #12 m/s# at #t=0# and moves a total of 22 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #12 m/s# at #t=0# and moves a total of 48 m by #t=6#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #2 m/s# at #t=0# and moves a total of 6 m by #t=5#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 8 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #2 m/s# at #t=0# and moves a total of 12 m by #t=5#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #2 m/s# at #t=0# and moves a total of 20 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 25 m by #t=3#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 24 m by #t=5#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #6 m/s# at #t=0# and moves a total of 4 m by #t=3#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #4 m/s# at #t=0# and moves a total of 8 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #8# #ms^-1# at #t=0# and moves a total of #16# #m# by #t=7#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #12 m/s# at #t=0# and moves a total of 8 m by #t=1#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #3 m/s# at #t=0# and moves a total of 80 m by #t=4#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #2 m/s# at #t=0# and moves a total of 90 m by #t=6#, what was the object's rate of acceleration?
If an object with uniform acceleration (or deceleration) has a speed of #5 m/s# at #t=0# and moves a total of 125 m by #t=8#, what was the object's rate of acceleration?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 6t-2# from #t in [0,1]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 3t^2-t+4# from #t in [0,4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 2t^2-t+4# from #t in [0,2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 2t^2-2t+2# from #t in [0,2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t# from #t in [0,3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 5t# from #t in [0,1]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 5t+1# from #t in [0, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t/4+1# from #t in [0, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t/4+2# from #t in [0, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 6-t# from #t in [0, 2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 6-t# from #t in [0, 2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 12-3t# from #t in [0, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 16-t^2# from #t in [0, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 36-t^2# from #t in [0, 5]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = 36-t^2# from #t in [2, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t^2-2t+1# from #t in [2, 5]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t^2-t+1# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t^3-2t+2# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) = t^3-t+3# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t+3# from #t in [2, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t-3# from #t in [3, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =12-2t# from #t in [3, 6]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =12-2t# from #t in [3, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =1-t# from #t in [0, 1]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =3t-4# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =3t-1# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t^2-1# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t^2-4# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =2t^2-t-4# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =2t^2-2t-2# from #t in [2, 3]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =2t^2-3t-2# from #t in [2, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =2t^2-3t-3# from #t in [2, 4]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =5t+3# from #t in [0, 2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t/2+1# from #t in [0, 2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t/6+5# from #t in [0, 2]#?
What is the average speed of an object that is still at #t=0# and accelerates at a rate of #a(t) =t/6# from #t in [0, 1]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =t+2# from #t in [0, 1]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =t+2# on #t in [3, 5]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =5t-10# on #t in [3, 5]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =6t-9# on #t in [3, 5]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =10-2t# on #t in [3, 5]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =10-t# on #t in [6, 10]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =8-t# on #t in [2,5]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =4-t/2# on #t in [2,3]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =4-t# on #t in [2,3]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =5-t^2/4# on #t in [2,4]#?
What is the average speed of an object that is not moving at #t=0# and accelerates at a rate of #a(t) =8-t^2/4# on #t in [2,5]#?
What is the average speed of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =9-t^2/3# on #t in [3,5]#?
What is the average speed of an object that is moving at #6 m/s# at #t=0# and accelerates at a rate of #a(t) =t-3# on #t in [1,5]#?
What is the average speed of an object that is moving at #5 m/s# at #t=0# and accelerates at a rate of #a(t) =20-t^2# on #t in [1,5]#?
What is the average speed of an object that is moving at #5 m/s# at #t=0# and accelerates at a rate of #a(t) =t-4# on #t in [4,5]#?
What is the average speed of an object that is moving at #8 ms^-1# at #t=0# and accelerates at a rate of #a(t) =t-4# on #t in [0,3]#?
What is the average speed of an object that is moving at #2 m/s# at #t=0# and accelerates at a rate of #a(t) =5-t# on #t in [0,3]#?
What is the average speed of an object that is moving at #4 m/s# at #t=0# and accelerates at a rate of #a(t) =2-t# on #t in [0,3]#?
What is the average speed of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =2-5t# on #t in [0,4]#?
What is the average speed of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =2-3t^2# on #t in [0,2]#?
What is the average speed of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =2-t^2# on #t in [0,2]#?
What is the average speed of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =5-6t# on #t in [0,2]#?
What is the average speed of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =5-2t# on #t in [0,3]#?
What is the average speed of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =5-3t# on #t in [0,4]#?
What is the average speed of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =7-t# on #t in [0,4]#?
What is the average speed of an object that is moving at #9 m/s# at #t=0# and accelerates at a rate of #a(t) =3-t# on #t in [0,5]#?
What is the average speed of an object that is moving at #9 m/s# at #t=0# and accelerates at a rate of #a(t) =5-2t# on #t in [0,5]#?
What is the average speed of an object that is moving at #30 m/s# at #t=0# and accelerates at a rate of #a(t) =5-2t^2# on #t in [0,5]#?
What is the average speed of an object that is moving at #25 m/s# at #t=0# and accelerates at a rate of #a(t) =2-2t^2# on #t in [0,5]#?
What is the average speed of an object that is moving at #15 m/s# at #t=0# and accelerates at a rate of #a(t) =7-2t^2# on #t in [0,3]#?
What is the average speed of an object that is moving at #6 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-5t+3# on #t in [0,3]#?
What is the average speed of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-2t+4# on #t in [0,3]#?
What is the average speed of an object that is moving at #4 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2-2t+4# on #t in [0,3]#?
What is the average speed of an object that is moving at #22 m/s# at #t=0# and accelerates at a rate of #a(t) =t-2# on #t in [0,2]#?
What is the average speed of an object that is moving at #22 m/s# at #t=0# and accelerates at a rate of #a(t) =t-8# on #t in [0,2]#?
What is the average speed of an object that is moving at #18 m/s# at #t=0# and accelerates at a rate of #a(t) =4t-8# on #t in [0,2]#?
What is the average speed of an object that is moving at #18 m/s# at #t=0# and accelerates at a rate of #a(t) =t-8# on #t in [1,4]#?
What is the average speed of an object that is moving at #9 m/s# at #t=0# and accelerates at a rate of #a(t) =2t-5# on #t in [1,4]#?
What is the average speed of an object that is moving at #9 m/s# at #t=0# and accelerates at a rate of #a(t) =2t+1# on #t in [1,2]#?
What is the average speed of an object that is moving at #2 m/s# at #t=0# and accelerates at a rate of #a(t) =t+1# on #t in [1,2]#?
What is the average speed of an object that is moving at #2 m/s# at #t=0# and accelerates at a rate of #a(t) =t-1# on #t in [1,2]#?
What is the average speed of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =t-1# on #t in [0,2]#?
What is the average speed of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-1# on #t in [0,2]#?
What is the average speed of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-t# on #t in [0,4]#?
What is the average speed of an object that is moving at #4 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2-t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #7 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-2t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #5 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-2t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #5 m/s# at #t=0# and accelerates at a rate of #a(t) =5-2t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =5-2t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =5-3t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #12 m/s# at #t=0# and accelerates at a rate of #a(t) =5t^2-3t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =5t^2-3t# on #t in [0,4]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =5t^2-2t# on #t in [0,3]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #8 m/s# at #t=0# and accelerates at a rate of #a(t) =t^2-5# on #t in [0,3]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #10 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2-10# on #t in [0,3]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #1 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2-1# on #t in [0,3]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #1 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2+1# on #t in [0,2]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2+1# on #t in [0,2]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #3 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2-2# on #t in [0,2]#?
What is the average speed, on #t in [0,5]#, of an object that is moving at #7 m/s# at #t=0# and accelerates at a rate of #a(t) =2t^2+2# on #t in [0,2]#?
A car advertisement states that a certain car can accelerate from rest to 70 km/h in 7 seconds. What is the car's average acceleration?
Question #a0334
Question #6a903
What is the acceleration experienced by a car that takes 10 s to reach 27 m/s from rest?
Question #8fa22
A car accelerates at #3# #m##/s^2# for #10# seconds. If it started with a velocity of #20# #m##/s#, what is its final velocity?
Question #1068c
Question #39725
An object is at rest at #(5 ,2 ,1 )# and constantly accelerates at a rate of #2/3 m/s# as it moves to point B. If point B is at #(4 ,9 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,2 ,1 )# and constantly accelerates at a rate of #2/3 m/s# as it moves to point B. If point B is at #(4 ,9 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,2 ,1 )# and constantly accelerates at a rate of #1/3# #ms^-2# as it moves to point B. If point B is at #(4 ,4 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,9 ,1 )# and constantly accelerates at a rate of #1/3 m/s# as it moves to point B. If point B is at #(4 ,4 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,9 ,2 )# and constantly accelerates at a rate of #1/3 m/s# as it moves to point B. If point B is at #(4 ,4 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,9 ,2 )# and constantly accelerates at a rate of #4/3 m/s# as it moves to point B. If point B is at #(3 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,4 ,2 )# and constantly accelerates at a rate of #4/3 m/s# as it moves to point B. If point B is at #(3 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,4 ,2 )# and constantly accelerates at a rate of #4/3 m/s# as it moves to point B. If point B is at #(3 ,1 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,4 ,2 )# and constantly accelerates at a rate of #4/5 m/s# as it moves to point B. If point B is at #(3 ,1 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,4 ,2 )# and constantly accelerates at a rate of #4/5 m/s# as it moves to point B. If point B is at #(3 ,6 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,4 ,2 )# and constantly accelerates at a rate of #4/5 m/s# as it moves to point B. If point B is at #(3 ,6 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,4 ,1 )# and constantly accelerates at a rate of #4/5 m/s# as it moves to point B. If point B is at #(3 ,6 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,4 ,1 )# and constantly accelerates at a rate of #4/5# # ms^-1# as it moves to point B. If point B is at #(6 ,6 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,4 ,1 )# and constantly accelerates at a rate of #2/5 m/s# as it moves to point B. If point B is at #(6 ,6 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,1 )# and constantly accelerates at a rate of #2/5 ms^-1# as it moves to point B. If point B is at #(6 ,9 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(5 ,1 ,1 )# and constantly accelerates at a rate of #2/5 m/s# as it moves to point B. If point B is at #(6 ,9 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(5 ,2 ,1 )# and constantly accelerates at a rate of #2/5 m/s# as it moves to point B. If point B is at #(6 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(5 ,2 ,8 )# and constantly accelerates at a rate of #2/5# #ms^-2# as it moves to point B. If point B is at #(6 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(5 ,2 ,8 )# and constantly accelerates at a rate of #1/5 m/s# as it moves to point B. If point B is at #(6 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,2 ,8 )# and constantly accelerates at a rate of #1/5 m/s# as it moves to point B. If point B is at #(6 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,8 )# and constantly accelerates at a rate of #1/5 m/s# as it moves to point B. If point B is at #(6 ,2 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,8 )# and constantly accelerates at a rate of #1/5 m/s# as it moves to point B. If point B is at #(6 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,5 )# and constantly accelerates at a rate of #1/5 m/s# as it moves to point B. If point B is at #(6 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,5 )# and constantly accelerates at a rate of #1/6 m/s# as it moves to point B. If point B is at #(6 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,5 )# and constantly accelerates at a rate of #7/6 m/s# as it moves to point B. If point B is at #(6 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,9 ,5 )# and constantly accelerates at a rate of #7/6 m/s# as it moves to point B. If point B is at #(6 ,3 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,5 )# and constantly accelerates at a rate of #7/6 m/s# as it moves to point B. If point B is at #(6 ,3 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,5 )# and constantly accelerates at a rate of #2 m/s# as it moves to point B. If point B is at #(6 ,3 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,5 )# and constantly accelerates at a rate of #2 m/s# as it moves to point B. If point B is at #(6 ,7 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,5 )# and constantly accelerates at a rate of #2 m/s# as it moves to point B. If point B is at #(6 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,5 )# and constantly accelerates at a rate of #3 m/s# as it moves to point B. If point B is at #(6 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,1 ,2 )# and constantly accelerates at a rate of #3 m/s# as it moves to point B. If point B is at #(6 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,2 ,9 )# and constantly accelerates at a rate of #3 m/s# as it moves to point B. If point B is at #(6 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,2 ,9 )# and constantly accelerates at a rate of #3 m/s# as it moves to point B. If point B is at #(6 ,7 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,6 ,9 )# and constantly accelerates at a rate of #1 m/s# as it moves to point B. If point B is at #(6 ,4 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,6 ,9 )# and constantly accelerates at a rate of #1# # ms^-2# as it moves to point B. If point B is at #(6 ,4 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,2 ,9 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(6 ,1 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,2 ,9 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,7 ,2 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,7 ,2 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,7 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,2 ,8 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,7 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,2 ,8 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,3 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(3 ,7 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,3 )# and constantly accelerates at a rate of #1 m/s^2# as it moves to point B. If point B is at #(9 ,3 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,3 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(9 ,3 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,0 ,3 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(5 ,3 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,0 ,2 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(5 ,7 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,7 ,2 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(5 ,0 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,7 ,3 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(5 ,6 ,9 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,1 ,2 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(5 ,6 ,1 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,1 ,8 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(2 ,9 ,1 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,8 ,8 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(2 ,9 ,1 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,8 ,8 )# and constantly accelerates at a rate of #7/5 m/s^2# as it moves to point B. If point B is at #(2 ,9 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,8 ,8 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(2 ,9 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,8 ,8 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,7 ,8 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,5 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,5 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,2 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,5 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(8 ,2 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,7 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(8 ,5 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,7 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(8 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,8 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,8 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(1 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,8 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(9 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,6 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(9 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,6 ,4 )# and constantly accelerates at a rate of #5/4 m/s^2# as it moves to point B. If point B is at #(5 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,6 ,4 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(5 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,6 ,4 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(5 ,1 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,9 ,4 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(7 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,9 ,4 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(5 ,1 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,3 ,9 )# and constantly accelerates at a rate of #7/4 ms^-2# as it moves to point B. If point B is at #(2 ,5 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(7 ,3 ,9 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(2 ,5 ,0 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,3 ,9 )# and constantly accelerates at a rate of #7/4# #ms^-2# as it moves to point B. If point B is at #(2 ,5 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,5 ,5 )# and constantly accelerates at a rate of #7/4# #ms^-2# as it moves to point B. If point B is at #(2 ,5 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,5 ,5 )# and constantly accelerates at a rate of #7/4 # #ms^-2# as it moves to point B. If point B is at #(2 ,3 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,2 ,5 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(2 ,3 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,2 ,5 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,2 ,5 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,5 ,1 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,1 ,5 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,5 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,1 ,7 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,5 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,3 ,8 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,5 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,3 ,8 )# and constantly accelerates at a rate of #7/4 m/s^2# as it moves to point B. If point B is at #(6 ,3 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,3 ,3 )# and constantly accelerates at a rate of #7/4 ms^-2# as it moves to point B. If point B is at #(6 ,3 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,3 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,3 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,3 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(1 ,3 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(1 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(1 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,3 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,7 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,8 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(9 ,1 ,3 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,8 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,3 ,6 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,8 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,6 ,2 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(2 ,8 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(8 ,5 ,4 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(2 ,4 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,4 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(7 ,4 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,6 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(6 ,4 ,5 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,6 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(3 ,4 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,1 ,6 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(3 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,8 ,6 )# and constantly accelerates at a rate of #1/4 m/s^2# as it moves to point B. If point B is at #(3 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,8 ,6 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(3 ,2 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,8 ,6 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,8 ,6 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,6 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,5 ,3 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,5 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #5/3 m/s^2# as it moves to point B. If point B is at #(7 ,2 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(7 ,2 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(7 ,9 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(7 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,5 ,8 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(7 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(7 ,9 ,2 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(3 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(9 ,9 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,5 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(9 ,4 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,3 ,5 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(1 ,9 ,8 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,3 ,5 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,6 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(1 ,5 ,5 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,6 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,5 ,9 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,6 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,5 ,9 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,7 ,2 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,4 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,7 ,2 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,0 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(6 ,7 ,2 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(8 ,1 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,8 ,2 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(8 ,1 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,8 ,3 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,8 ,3 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,1 ,6 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,5 ,7 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,1 ,6 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,5 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,1 ,6 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(4 ,7 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
An object is at rest at #(2 ,7 ,1 )# and constantly accelerates at a rate of #4/3 m/s^2# as it moves to point B. If point B is at #(3 ,1 ,6 )#, how long will it take for the object to reach point B? Assume that all coordinates are in meters.
How long will it take to cover the moon with spherical miniature meteors, one meter tall, each with a diameter of #1.00xx10^-6# meters, hitting the moon at a rate of 1 meteor per second?
How do you find the displacement of an object if you know the acceleration?
What is the average velocity of a particle, whose position can be determined by #x=10t^2#, from #t_"initial" = 2.0 " s"# to #t_"final"=3.0 " s"# and again, from #t_"initial"=2.0 " s"# to #t_"final"=2.1 " s"#?
Question #ab83f
A particle moves along the #x#-axis in such a way that its position at time #t# is given by #x(t) = (2-t)/(1-t)#. What is the acceleration of the particle at time #t=0#?
An object's velocity is given by #v(t) = (t^2 -3t +2 , sint )#. What is the object's rate and direction of acceleration at #t=4 #?
An object's velocity is given by #v(t) = (2t^2 -t +2 , sint )#. What is the object's rate and direction of acceleration at #t=4 #?
An object's velocity is given by #v(t) = (2t^2 -t +2 , sint )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's velocity is given by #v(t) = (2t^2 -2t +1 , sint )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's velocity is given by #v(t) = (2t^2 +t +1 , sin2t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's velocity is given by #v(t) = (2t^2 +t +1 , sin2t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's velocity is given by #v(t) = (2t^2 +t +1 , sin2t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's velocity is given by #v(t) = (2t^2 +t +1 , sin2t )#. What is the object's rate and direction of acceleration at #t=6 #?
An object's velocity is given by #v(t) = (t^2 +t +1 , sin4t )#. What is the object's rate and direction of acceleration at #t=6 #?
An object's velocity is given by #v(t) = (t^2 +t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=6 #?
An object's velocity is given by #v(t) = (t^2 -t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=6 #?
An object's velocity is given by #v(t) = (t^2 -t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's velocity is given by #v(t) = (t^2 -t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = (t^2 -t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = (t^2 -t +1 , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = (3t-sqrtt , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = (3t-sqrtt , t^3- 3t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = (3t-sqrtt , 2t-4 )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = (3t-sqrtt , 2t-4 )#. What is the object's rate and direction of acceleration at #t=a #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t , 2t-4e^2 )#. What is the object's rate and direction of acceleration at #t=a #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t , t-4e^2 )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t , t-4e^2 )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t , t-4e^2 )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t^2 , t-te^2 )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t^2 , t-te^2 )#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t^2 , t-te^2 )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( e^t-2t^2 , t^3 - 4t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( 2t^2 , t^3 - 4t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( 2t^2 , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( cost , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( cost , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( cost , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 5t , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 5t , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 5t , -t^3 +4t )#. What is the object's rate and direction of acceleration at #t=9 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 5t , t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 2t , t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 2t , t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 2t , 1- 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 2t , 1- 3t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( 3t^2 - 2t , 1- 3t )#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 - 2t , 1- 3t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 - 2t , cospit - t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 - 2t , cospit - t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 - 2t , cospit - t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2 , cospit - t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2 , cospit - t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2 , cospit - 3t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2 , cospit - 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2t , cospit - 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2t , cospit - 3t )#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2t , cospit - 3t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2t , 2cospit - t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( t^2 +2t , 2cospit - t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( sin(pi/3t) , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( sin(pi/3t) , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=8 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- t )#. What is the object's rate and direction of acceleration at #t=8 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- 3t )#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- 3t )#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( tsin(pi/3t) , 2cos(pi/2t )- 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( sin(pi/3t) , 2cos(pi/2t )- 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 2cos(pi/2t )- 3t )#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 5t^2-3t)#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 5t^2-3t)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( t-2 , 5t^2-3t)#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( t-2t^3 , 4t^2-3t)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t-2t^3 , 4t^2-t)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t-2t^3 , 4t^2-t)#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( t-2t^3 , 4t^2-t)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( 5t-t^3 , 4t^2-t)#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( 5t-t^3 , 3t^2-2t)#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( 5t-t^3 , 3t^2-2t)#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( 5t-t^3 , 3t^2-2t)#. What is the object's rate and direction of acceleration at #t=5 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(3t)-t , t^2-5t)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t-2)-t , t^2-5t)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t-2)-t , t^2)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t-2)-t , t^2)#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t-2)-2t , t^2)#. What is the object's rate and direction of acceleration at #t=7 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t-2)-2t , t^2)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t^2-1)-2t , t^2)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t^2-1)-2t , t^2-5)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( sqrt(t^2-1)-2t , t^2-5)#. What is the object's rate and direction of acceleration at #t=6 #?
An object's two dimensional velocity is given by #v(t) = ( 1/t, t^2)#. What is the object's rate and direction of acceleration at #t=6 #?
An object's two dimensional velocity is given by #v(t) = ( 1/t, t^2)#. What is the object's rate and direction of acceleration at #t=1 #?
An object's two dimensional velocity is given by #v(t) = ( 1/t, t^2)#. What is the object's rate and direction of acceleration at #t=2 #?
An object's two dimensional velocity is given by #v(t) = ( t-1/t, t^2)#. What is the object's rate and direction of acceleration at #t=1/2 #?
An object's two dimensional velocity is given by #v(t) = ( t-1/t, t^2)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t^3, t-t^2sin(pi/8)t)#. What is the object's rate and direction of acceleration at #t=3 #?
An object's two dimensional velocity is given by #v(t) = ( t^3, t-t^2sin(pi/8)t)#. What is the object's rate and direction of acceleration at #t=12 #?
An object's two dimensional velocity is given by #v(t) = ( t^3, t-t^2sin(pi/8)t)#. What is the object's rate and direction of acceleration at #t=4 #?
An object's two dimensional velocity is given by #v(t) = ( t^2, t-t^2sin(pi/3)t)#. What is the object's rate and direction of acceleration at #t=4 #?
Question #5ba10
A baseball goes from zero to 44 m/s in 0.153 s. What is its average acceleration?
It attains to the point of B in 3 seconds,if a body falls freely from rest at the point of A. Find distance between the two points A and C ? ( use g=10 N/kg,ignore drag and assume that drawing is scaled.)
A train covers 60 miles between 2 p.m. and 4 p.m. How fast was it going at 3 p.m.?
An automobile traveling 90 km/h overtakes a 1.5-km-long train traveling in the same direction on a track parallel to the road. The train speed is 70 km/h, - how long does it take the car to pass it - how far will the car have traveled in that time?
A truck is traveling at 90km/h when the driver sees an obstacle 85m away. The driver brakes and decelerates at #3.80m/s^2#. Determine: A) the time required to stop. B) the distance required to stop. C) the distance to reach half the initial speed?
A projectile thrown from the ground level at an angle of alpha, is vertically displaced 35 meters within the last one second before landing.How many meters might it have raised ? (Assume ;g=10 N/kg,There is no drag)
Can you drive your car in such a way that your tangential acceleration is zero while at the same time your centripetal acceleration is nonzero? Give example or state why not.
Question #d79e2
Strontium-90 has a half-life of 28.5 years. How long (in years) will it take for 94.9900% of the strontium-90 released in a nuclear reactor accident to disappear?
Question #4da3c
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An object moving at #8.293485234671349xx10^23094#m/s stops after #12398475#s what was the object's acceleration?
What is the SI unit of acceleration?
When a car's velocity is positive and its acceleration is negative, what is happening to the car's motion?
A kitten pushes a ball of yarn rolling toward it at 1.00 cm/s with its nose, displacing the ball of yarn 17.5 cm in the opposite direction in 2.00 s. What is the acceleration of the ball of yarn?
The velocity of an object in meters per second is #v(t) = 36-t^2# for #0<= t <= 6#. What is the velocity and acceleration of the object when t = 6?
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What is #(60. ms^2)/(0.060s) #?
Dave is riding on a straight path. After 5 s, his speed is 3.0 m/s. After 7 s, his speed is 5.0 m/s. After 10 s, speed is 7.0 m/s. What was his acceleration from 5 s to 10 s?
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A car moving at 70 km/hr has a mass of 1700 kg. What force is necessary to decelerate it at a rate of 40 cm/s/s?
Acceleration is related to distance and time by the following expression: #a = 2xt^p#. Find the power #p# that makes this equation dimensionally consistent?
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Your mass is 55 kg. You stand on a bathroom scale in an elevator on Earth. What does the scale read when the elevator moves up at a constant speed?
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How can an object (e.g. car) have zero velocity and nonzero (+/-) acceleration?
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A ball rolling down a hill at 4.0 m/s accelerates at 2.0 m/s2. What is its velocity 5.0s later?
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A car that is moving at a constant velocity of 30 m/s, east for 5 seconds has an acceleration of what?
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A force of #12# newtons is applied on an object and it gives it an acceleration of #12# #m/s^2#. Find the mass of the object and its velocity after #3# seconds?
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Since an airplane has no brakes, how does an airplane slow down?
Acceleration rates are often described by the time it takes to reach 60.0 mi/h from rest. If this time was 4.00 s, and Burt accelerated at this rate until he reached his maximum speed, how long did it take Burt to complete the course?
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A train previously at rest starts accelerating. It takes 4 seconds for the first carriage to cross the reference point K. How long will it take for the 10th carriage to cross the same point? (All carriages are the same width)
A soft tennis ball is dropped onto a hard floor from a height of 1.25 m and rebounds to a height of 1.05 m?
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Which of these is an example of deceleration?
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A roller coaster starts down a hill at 10 m/s. Three seconds later, its speed is 32 m/s. What is the roller coaster’s acceleration?
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What is the initial acceleration of the plane? What is the acceleration of the plane at the point of take-off?
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Consider the 65.0 kg ice skater being pushed by two others shown in the figure?
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What is instantaneous acceleration? Let me know by derivative. Thanks in anticipation.
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A car with a total mass of 1400kg (including occupants), traveling at 60kmh^-1 hits a large tree and stops in 0.08seconds. What is the magnitude of the deceleration of the 70kg driver of the car if he is wearing a properly fitted seat belt?
The cable holding an elevator would break if the tension in it exceeds 25000N. If the 480 kg elevator carries a load limit of 24 passengers (ave mass is 70kg per person) what is the max possible upward acceleration of the elevator without breaking cable?
What is the acceleration of a meteor at a distance #8xx10^6"m"# from the centre of the Earth? Take the mass of the Earth to be #6xx10^(24)"kg"#
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A truck starts from rest at the top a slope which is 1 m high and 49 m long. What is the acceleration and it's speed at the bottom of the slope assuming friction is negligible?
A car weighing 9800N is moving at 25 m/s. If the frictional force acting on it is 2000 N, how fast is the car moving when it has travelled 60m?
Maria is painting the trim on the top of a building. She drops her paintbrush. The paintbrush has a velocity of 29.4 m/s when it hits the ground 3 s later. What is the acceleration of the paintbrush?
A jeep chases a thief with a constant velocity #v#. When the jeep is at distance d from the thief, he starts to run with a constant acceleration #a#. Show that the police will be able to catch the thief when #v >= sqrt(2ad)#?
What will be the condition of no collision between the two trains?
What will be the condition of no collision with the second train?
A body start from rest and with a uniform acceleration of 10m/s^2 for 5 second. during the next 10 second its moves with uniform velocity. the total distance travelled by the body its?
How do you simplify #\frac{at^{2}}{2}+ut#?
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An ice skater moving at 10.0 m/s coasts to a halt in 100 m on a smooth ice surface. What is the coefficient of friction between the ice and the skates?
A car starts from rest and accelerates uniformly over a time of 10 seconds for a distance of 215 m. What is the acceleration of the car?
A car, which is accelerating uniformly from rest, travels a distance of 28.5 m in the tenth second of its motion. What is its acceleration?
What applied force is needed by a 5kg to accelerate 10 m/s2?