Solved: Finding a Position Vector by Integration In Exercises 1924, use the given
Chapter 12, Problem 20(choose chapter or problem)
Finding a Position Vector by Integration In Exercises 19-24,use the given acceleration vector to find the velocity and position vectors. Then find the position at time t = 2.
\(\mathbf{a}(t)=2 \mathbf{i}+3 \mathbf{k}, \quad \mathbf{v}(0)=4 \mathbf{j}, \quad \mathbf{r}(0)=\mathbf{0}\)
Text Transcription:
a(t) 2i+ 3k, v(0) = 4j. r(0) = 0
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