I need answer for 4 and 5 TimePositionVelocityAd() PAccelerationt(s)(mis)(m/s)0.00.06.02.012+3.0124.0366.0488.09610.014212.019014.022616.025018.0262Analyze and Conclude1. How well do the average and instantaneousvelocities that you calculated agree witheach other?2 Separate the graphs into three sections: (a) 0 sto 8s, (b) 8 s to 12 s, and (c) 12 s to 20 s. Foreach of these three time periods, compare allthree graphs in the following ways.(a) How do the shapes of the graphs (curved,straight, horizontal) relate to each other?(b) How do the signs of the values (positive,zero, or negative) relate to each other?1 Under what circumstances can the van bemoving but have a zero acceleration?4 Under what circumstances is the sign ofthe velocity the same as the sign of theacceleration?5. What general statement can you make aboutthe motion of the van when the direction ofthe acceleration vector is opposite to thedirection of the velocity vector? Acceleration AV mTime Position Velocity+(s) d (m)A (ml)At+32.12KUNDUZ3612KUND36.KUNDUZ+96.482니to 59625- 0.5101422나190-3121814226-3120-31625018 ND26 26.KUNDUZKUNDUZ

As directed only question 4 and 5 is answered. 4) The sign of velocity is same as the sign of…

4 Under what circumstances is the sign of the velocity the same as the sign of the acceleration? 5. What general statement can you make about the motion of the van when the direction of the acceleration vector is opposite to the direction of the velocity vector?

4 Under what circumstances is the sign of the velocity the same as the sign of the acceleration? 5. What general statement can you make about the motion of the van when the direction of the acceleration vector is opposite to the direction of the velocity vector?

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Question

I need answer for 4 and 5

Time
Position
Velocity
Ad
() P
Acceleration
t(s)
(mis)
(m/s)
0.0
0.0
6.0
2.0
12
+3.0
12
4.0
36
6.0
48
8.0
96
10.0
142
12.0
190
14.0
226
16.0
250
18.0
262
Analyze and Conclude
1. How well do the average and instantaneous
velocities that you calculated agree with
each other?
2 Separate the graphs into three sections: (a) 0 s
to 8s, (b) 8 s to 12 s, and (c) 12 s to 20 s. For
each of these three time periods, compare all
three graphs in the following ways.
(a) How do the shapes of the graphs (curved,
straight, horizontal) relate to each other?
(b) How do the signs of the values (positive,
zero, or negative) relate to each other?
1 Under what circumstances can the van be
moving but have a zero acceleration?
4 Under what circumstances is the sign of
the velocity the same as the sign of the
acceleration?
5. What general statement can you make about
the motion of the van when the direction of
the acceleration vector is opposite to the
direction of the velocity vector?

Acceleration AV m
Time Position Velocity
+(s) d (m)
A (ml)
At
+3
2.
12
KUNDUZ
36
12
KUND3
6.
KUNDUZ
+9
6.
48
2니
to 5
96
25
- 0.5
10
142
2나
190
-3
12
18
14
226
-3
12
0-3
16
250
18 ND
26 2
6.
KUNDUZ
KUNDUZ

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