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estimate the instantaneous velocity at t=7 seconds using the difference quotients with h=0.1,0.01,0.001

estimate the instantaneous velocity at t=7 seconds using the difference quotients-example-1
User Cclloyd
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1 Answer

14 votes
14 votes

EXPLANATION

Given that the arrow function is as follows:


f(t)=-16t^2+128t

The instantaneous velocity is given by the following relationship:


(f(t+\Delta t)-f(t))/(\Delta t)\text{ at t=7}

For △t = 0.1:


Velocity=(\lbrack-16(7+0.1)^2+128\cdot(7+0.1)\rbrack-\lbrack-16\cdot(7)^2+128\cdot7\rbrack)/(0.1)

Computing the powers:


Velocity=(\lbrack-16\cdot50.41+128\cdot7.1\rbrack-\lbrack-16\cdot49+128\cdot7\rbrack)/(0.1)

Multiplying numbers:


Velocity_(0.1)=(\lbrack-806.56+908.8\rbrack-\lbrack-784+896\rbrack)/(0.1)

Removing the parentheses and adding numbers:


Velocity_(0.1)=(-9.76)/(0.1)=-97.6\approx98_{\text{ }}ft/s

For △t=0.01


Velocity=(\lbrack-16(7+0.01)^2+128\cdot(7+0.01)\rbrack-\lbrack-16\cdot(7)^2+128\cdot7\rbrack)/(0.01)

Computing the powers:


Velocity=(\lbrack-16\cdot49.1401+128\cdot7.01\rbrack-\lbrack-16\cdot49+128\cdot7\rbrack)/(0.01)

Multiplying numbers:


Velocity_(0.01)=(\lbrack-786.2416+897.28\rbrack-\lbrack-784+896\rbrack)/(0.01)

Adding numbers:


Velocity_(0.01)=(-0.9616)/(0.01)=-96.16\approx-96ft/s

For △t = 0.001

Applying the same reasoning than before, give us the following result:


Velocity_(0.001)=-96.016\text{ ft/s}\approx-96ft/s

User Holystream
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3.1k points
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