For Exercises 47-48, an object undergoes uniform linear motion on a straight path from point A to point B in Δ t sec . Write parametric equations over an interval l that describe the motion along the path. A = 1 , 5 , B = 7 , 3 , and Δ t = 2 sec
For Exercises 47-48, an object undergoes uniform linear motion on a straight path from point A to point B in Δ t sec . Write parametric equations over an interval l that describe the motion along the path. A = 1 , 5 , B = 7 , 3 , and Δ t = 2 sec
Solution Summary: The author explains the parametric equations for an object that undergoes uniform linear motion on a straight path.
For Exercises 47-48, an object undergoes uniform linear motion on a straight path from point
A
to point
B
in
Δ
t
sec
. Write parametric equations over an interval
l
that describe the motion along the path.
A shot put being thrown is represented by the parametric
equations:
x = 22.98t
y = -16t² + 19.3t+6
If a 6 foot man stands 25 feet away from thrower, will the
shot put hit him?
If not, by how much would the shot put miss the 6 foot
man? Round to the nearest hundredths place. If not
applicable, then write NA.
feet
A bee fles around a room at an altitude of 2= 2.3 meters making circles, so that its r coordinate varies from 1.3 to 1.9 meters, and its y coordinate
varies from 2.2 to 2.8 meters. The bee completes one circle every 2.3 seconds. At sime=0 seconds, the bee's y coordinate is 2.8 meters and its velocity vector
is completely in the +i direction. Write parametric equations to describe the motion of the bee
z(t)= sin(2p/23)+22
y(t) =30(2pit2:3)+1.9
z(t) = 23
Single Variable Calculus: Early Transcendentals (2nd Edition) - Standalone book
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