![Page 1: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/1.jpg)
AccelerationAcceleration
![Page 2: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/2.jpg)
Changing MotionChanging Motion
Objects with changing velocities cover different Objects with changing velocities cover different distances in equal time intervals. distances in equal time intervals.
![Page 3: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/3.jpg)
AccelerationAcceleration
Rate at which an object’s velocity Rate at which an object’s velocity changes.changes.– When the velocity changes at a constant rate, When the velocity changes at a constant rate,
the object has constant acceleration.the object has constant acceleration.– Average Acceleration = change in velocity Average Acceleration = change in velocity
during a time intervalduring a time interval– Instantaneous acceleration = acceleration at Instantaneous acceleration = acceleration at
any instant.any instant.
![Page 4: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/4.jpg)
Velocity-Time GraphVelocity-Time Graph
A A velocity-time graph velocity-time graph can be used to find can be used to find accelerationacceleration
The slope of the The slope of the velocity-time graph velocity-time graph gives the gives the acceleration.acceleration.
aa = = v / v / tt
a = (va = (vf f - v- vii) / ) / (t(tff - t - tii ) )
![Page 5: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/5.jpg)
Positive and Negative AccelerationPositive and Negative Acceleration
Positive acceleration Positive acceleration means that the means that the acceleration vector is in acceleration vector is in the positive directionthe positive direction
Negative acceleration Negative acceleration means that the means that the acceleration vector is in acceleration vector is in the negative direction.the negative direction.– Positive and negative Positive and negative
acceleration acceleration do notdo not indicate speeding up or indicate speeding up or slowing down.slowing down.
![Page 6: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/6.jpg)
Ex. #1:Ex. #1: A shuttle bus starts from rest A shuttle bus starts from rest and reaches a velocity of 9.00 m/s in and reaches a velocity of 9.00 m/s in 5.00 s. Find the average acceleration of 5.00 s. Find the average acceleration of the bus.the bus.
Given:Given: vvii = 0 = 0
vvff = 9.00 m/s = 9.00 m/s
tt = 5.00 s = 5.00 s
Find:Find: aa = ? = ?
a = (va = (vff - v - vii)) / / tt
= (9.00 m/s - 0)/(5.00 s) = (9.00 m/s - 0)/(5.00 s)
= 1.80 m/s= 1.80 m/s22
![Page 7: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/7.jpg)
Ex. #2:Ex. #2: A motorcycle has an average A motorcycle has an average acceleration of 15 m/sacceleration of 15 m/s22. How much time . How much time is required for it to reach 27 m/s from is required for it to reach 27 m/s from rest?rest?
Given:Given: vvii = 0 m/s = 0 m/s
vvff = 27 m/s = 27 m/s
aa = 15 m/s = 15 m/s2 2
Find:Find: tt = ? = ?
a = (va = (vff - v - vii)) / / tt
t = (vt = (vff - v - vii) / a) / a
= (27 m/s - 0 m/s) / (15 m/s= (27 m/s - 0 m/s) / (15 m/s22))
= 1.8 s= 1.8 s
![Page 8: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/8.jpg)
Velocity-Time GraphVelocity-Time Graph
The The areaarea between the between the velocity-time curve velocity-time curve and the x-axis gives and the x-axis gives the the displacementdisplacement of of the object.the object.– Add all areas to get Add all areas to get
total displacement.total displacement.– Negative areas Negative areas
indicate negative indicate negative displacementdisplacement
![Page 9: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/9.jpg)
Motion with Constant AccelerationMotion with Constant Acceleration
Equations can be derived from a Equations can be derived from a velocity-time graphvelocity-time graph
1.1. vvff = v = vii + a + aΔΔtt (slope of v-t graph)(slope of v-t graph)
2.2. ddff = d = di i + + vvi i ΔΔt + ½ t + ½ aaΔΔtt22 (area under curve-(area under curve-
triangle + rectangle)triangle + rectangle)
3.3. ΔΔd = ½ (d = ½ (vvi i + v+ vff) ) ΔΔtt (area under curve-trapezoid)(area under curve-trapezoid)
4.4. vvff22 = v = vii 22 + 2a + 2a ΔΔd d (combine 1(combine 1stst and 2 and 2ndnd equns to equns to
remove time)remove time)
![Page 10: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/10.jpg)
Ex. 1:Ex. 1: A boat on the A boat on the Log FlumeLog Flume at Six Flags at Six Flags takes 2.0 s to slow down from 16.2 m/s to takes 2.0 s to slow down from 16.2 m/s to 1.7 m/s. What is the rate of acceleration of 1.7 m/s. What is the rate of acceleration of the boat?the boat?
Given: Given: tt = 2.0 s = 2.0 s
vvii = 16.2 m/s = 16.2 m/s
vvff = 1.7 m/s= 1.7 m/s
Find: Find: aa = ? = ?
vvff= v= vii + a + a tt
(v(vff – v – vii) / ) / t = at = a
(1.7 m/s -16.2 m/s) / 2.0 s = (1.7 m/s -16.2 m/s) / 2.0 s = aa
= - 7.3 m/s= - 7.3 m/s22
![Page 11: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/11.jpg)
Ex. 2:Ex. 2: How far does the same boat on the How far does the same boat on the Log FlumeLog Flume travel while slowing down? travel while slowing down?
Given: Given: t = 2.0 s t = 2.0 s
vvii = 16.2 m/s = 16.2 m/s
vvff = 1.7 m/s = 1.7 m/s
Find: Find: dd = ? = ?
d = ½ (vd = ½ (vii + v + vff) ) tt
= ½ (16.2 m/s + 1.7 m/s)(2.0 s)= ½ (16.2 m/s + 1.7 m/s)(2.0 s)
= 18 m= 18 m
![Page 12: Acceleration. Changing Motion Objects with changing velocities cover different distances in equal time intervals](https://reader035.vdocuments.us/reader035/viewer/2022072011/56649e0c5503460f94af59de/html5/thumbnails/12.jpg)
Ex. 3:Ex. 3: Back on the Back on the Log FlumeLog Flume, the next boat , the next boat accelerates down the slide at 5.2 m/saccelerates down the slide at 5.2 m/s22. If the . If the boat starts from rest, how long is the slide?boat starts from rest, how long is the slide?
Given: Given: vvii = 0 m/s = 0 m/s
vvff = 16.2 m/s = 16.2 m/s
aa = 5.2 m/s = 5.2 m/s22
Find: Find: dd = ? = ?
vvff 22 = v = vii 22 + 2a + 2add
(v(vff 22 – v – vii 22) / 2a = ) / 2a = dd
[(16.2 m/s)[(16.2 m/s)22 - (0) - (0)22] /(2*5.2 m/s] /(2*5.2 m/s22) = ) = dd
= 25 m= 25 m