of If the function f(x,y) is continuous near the point (a,b), then at least one solution of the differential equation y' = f(x,y) exists on some open interval I containing the point x = and, moreover, that if in addition the partial derivative is continuous near (a,b) then this solution is unique on some (perhaps smaller) interval J. Determine whether dy existence of at least one solution of the given initial value problem is thereby guaranteed and, if so, whether uniqueness of that solution is guaranteed. dy=2x4y4y(6)=-1 dx CILE O A. The theorem implies the existence of at least one solution because f(x,y) is continuous near the point continuous near that same point. OB. The theorem implies the existence of at least one solution because f(x,y) is continuous near the point af is not continuous near that same point. dy OC. The theorem does not imply the existence of at least one solution because f(x,y) is not continuous near the point because This solution is unique because of dy is also However, this solution is not necessarily unique

Transcribed Image Text:

If the function f(x,y) is continuous near the point (a,b), then at least one solution of the differential equation y' = f(x,y) exists on some open interval I containing the point x = a Əf and, moreover, that if in addition the partial derivative is continuous near (a,b) then this solution is unique on some (perhaps smaller) interval J. Determine whether dy existence of at least one solution of the given initial value problem is thereby guaranteed and, if so, whether uniqueness of that solution is guaranteed. dy dx OA. - 4.4. 2x y y(6)= - 1 POC This solution is unique because The theorem implies the existence of at least one solution because f(x,y) is continuous near the point continuous near that same point. OB. The theorem implies the existence of at least one solution because f(x,y) is continuous near the point af because = is not continuous near that same point. ду OC. The theorem does not imply the existence of at least one solution because f(x,y) is not continuous near the point af dy = is also However, this solution is not necessarily unique