Solution 8.1a
From Mechanics
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| + | In this case we have | ||
| + | <math>\mathbf{u}=4\mathbf{i}</math> | ||
| + | and | ||
| + | <math>\mathbf{a}=0\textrm{.}9\mathbf{i}+0\textrm{.}7\mathbf{j}</math> | ||
| + | Substituting these into the equation | ||
| + | <math>\mathbf{v}=\mathbf{u}+\mathbf{a}t \ \</math> | ||
| + | gives the velocity of the jet-ski at time <math>t=10 \text{ s }</math> as: | ||
| + | |||
| + | <math>\mathbf{v}=4\mathbf{i}+(0\textrm{.}9\mathbf{i}+0\textrm{.}7\mathbf{j})\times 10</math> | ||
| + | |||
| + | which gives | ||
| + | |||
| + | <math>\mathbf{v}=13\mathbf{i}+7\mathbf{j} \ \text{ m}{{\text{s}}^{\text{-1}}}</math> | ||
Current revision
In this case we have \displaystyle \mathbf{u}=4\mathbf{i} and \displaystyle \mathbf{a}=0\textrm{.}9\mathbf{i}+0\textrm{.}7\mathbf{j}
Substituting these into the equation \displaystyle \mathbf{v}=\mathbf{u}+\mathbf{a}t \ \ gives the velocity of the jet-ski at time \displaystyle t=10 \text{ s } as:
\displaystyle \mathbf{v}=4\mathbf{i}+(0\textrm{.}9\mathbf{i}+0\textrm{.}7\mathbf{j})\times 10
which gives
\displaystyle \mathbf{v}=13\mathbf{i}+7\mathbf{j} \ \text{ m}{{\text{s}}^{\text{-1}}}
