Explain what the Existence and Uniqueness Theorem for First Order IVPs guarantees about the existence and uniqueness of solutions for the following IVP.
\[ y'= 5 \, {\left(4 \, t + 3 \, {y} - 17\right)}^{\frac{8}{3}} \hspace{2em} x( 2 )= 3 \]
Answer:
\(F(t,y)= 5 \, {\left(4 \, t + 3 \, {y} - 17\right)}^{\frac{8}{3}} \) is continuous at and nearby the initial value so a solution exists for a nearby interval.
\(F_y= 40 \, {\left(4 \, t + 3 \, {y} - 17\right)}^{\frac{5}{3}} \) is continous at and nearby the initial value so the solution is unique for a nearby interval.