f₁ 04 (frames) (frames) (frames) (frames) 13 1.5 At (s) X 1 Minimum value for fpred Af (frames) 45 103 Maximum value for fpred 1 Now you will use kinematics & the acceleration you calculated in the previous table to predict at which frame the cart should have reached the 2 m mark. Fill in the table below by determining how long (At) it would take to travel 2 m, how many frames are required for that much time (Af), the frame at which your calculations predict it should reach 2 m (fpred), and the uncertainty of your prediction (pred). The formula for pred is below the table. fpred (frames) 51.5 3 opred (frames) 13.79 At (s) a (m/s²) .8889 da (m/s²) .0395 0₂= 2a(0, +0₁) ff-fi preda Af 2a Using the values you just calculated, determine the range for your prediction. Remember that fpred pred and thus to determine the upper part of the range (maximum value) you would add them whereas to find the lower part (minimum value) you would subtract them. + 01

f₁ 04 (frames) (frames) (frames) (frames) 13 1.5 At (s) X 1 Minimum value for fpred Af (frames) 45 103 Maximum value for fpred 1 Now you will use kinematics & the acceleration you calculated in the previous table to predict at which frame the cart should have reached the 2 m mark. Fill in the table below by determining how long (At) it would take to travel 2 m, how many frames are required for that much time (Af), the frame at which your calculations predict it should reach 2 m (fpred), and the uncertainty of your prediction (pred). The formula for pred is below the table. fpred (frames) 51.5 3 opred (frames) 13.79 At (s) a (m/s²) .8889 da (m/s²) .0395 0₂= 2a(0, +0₁) ff-fi preda Af 2a Using the values you just calculated, determine the range for your prediction. Remember that fpred pred and thus to determine the upper part of the range (maximum value) you would add them whereas to find the lower part (minimum value) you would subtract them. + 01

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter5: Relativity

Section: Chapter Questions

Problem 5.6CYU: Check Your Understanding Distances along a direction perpendicular to the relative motion of the two...

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Question

100%

How do I work the blue and red boxes. The green box calculations are for a cart reaching 4 m and the blue boxes are for a cart that would reach 2 meters

ofi
(frames) (frames)
13
1.5
At
(s)
1
Minimum
value for
fpred
Af
(frames)
45
Off
(frames) (frames)
103
Maximum
value for
fpred
fpred
(frames)
1
51.5
Now you will use kinematics & the acceleration you calculated in the previous table to predict at which frame the cart should have reached the 2 m mark. Fill in the table below by determining how long (At) it would
take to travel 2 m, how many frames are required for that much time (Af), the frame at which your calculations predict it should reach 2 m (fpred), and the uncertainty of your prediction (pred). The formula for pred
is below the table.
3
opred
(frames)
13.79
At
(s)
a
(m/s²)
.8889
σa
(m/s²)
.0395
0₂=
2a(off + Of)
ff- fi
pred = a Af
2a
±
Using the values you just calculated, determine the range for your prediction. Remember that fpred pred and thus to determine the upper part of the range (maximum value) you would add them whereas to find
the lower part (minimum value) you would subtract them.
+ 0₁

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