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\begin{exerciseStatement}
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 Explain what the Existence and Uniqueness Theorem for First Order IVPs guarantees about the existence and uniqueness of solutions for the following IVP. 
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\[
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      y'= 4 \, {\left(3 \, {y} - 3 \, t + 3\right)}^{\frac{4}{3}} \hspace{2em}
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      x( -2 )= -3 \]
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\end{exerciseStatement}
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\begin{exerciseAnswer} 
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\(F(t,y)= 4 \, {\left(3 \, {y} - 3 \, t + 3\right)}^{\frac{4}{3}} \) is continuous at and nearby the initial value so a solution exists for a nearby interval. 
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\(F_y= 16 \, {\left(3 \, {y} - 3 \, t + 3\right)}^{\frac{1}{3}} \) is continous at and nearby the initial value so the solution is unique for a nearby interval. 
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\end{exerciseAnswer}
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