Why Does the Acceleration of a Particle Need to Be Zero for Maximum Speed?

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For a particle moving along the x-axis, the velocity function is defined as V={8t-3/2t²} for 0≤t≤4 and V={16-2t} for t>4. To achieve maximum speed within the interval 0≤t≤4, the acceleration must equal zero, which occurs at the vertex of the downward-opening parabola represented by the velocity function. This point corresponds to the maximum velocity, where the slope of the velocity-time graph is flat. Understanding this concept visually through a plot of the velocity curve clarifies why zero acceleration is necessary for maximum speed. Thus, the condition of zero acceleration is critical for identifying the peak velocity of the particle.
Roadtrip
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A particle P moves on the x-axis. At time t seconds the velocity of P is V m/s in the direction of x increasing?o
V is given by V={8t-3/2t²} for 0≤t≤4
Also V={16-2t} for t>4

Why does the acceleration have to equal zero to get the greatest speed of P in interval 0≤t≤4
 
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This is probably best understood by plotting the velocity. Look at the maximum, and see what the slope is visually.
 
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Roadtrip, post: 5499325, member: 596960"]A particle P moves on the x-axis. At time t seconds the velocity of P is V m/s in the direction of x increasing?o
V is given by V={8t-3/2t²} for 0≤t≤4
Also V={16-2t} for t>4

Why does the acceleration have to equal zero to get the greatest speed of P in interval 0≤t≤4
Plot v-t curve for t<4.It would be a parabola open downward.Velocity is maximum at maxima of the curve.Maybe now you can understand why acceleration would be zero.
 
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