Please refer to the attached Figure, which has three parts, A,B and C.

I first annealed complementary ssDNA in a PCR machine. Then, I heated the annealed dsDNA from 25 deg to 75 deg until all the DNA melts (Fig A). The DNA duplex has a melting temp (Tm) of around 50 deg. The experiment was done using the UV spectrometer, where the annealed DNA was put in a cuvette attached to a temperature controller (Fig B). Fig C shows a plot of Absorbance vs Temp. Data was collected for temperatures from 25 to 75 deg, at an interval of 5 deg. 

As you can see in Fig C, the absorbance changes from a minimum of 0.5 to a maximum of 0.7. At 25 deg, I would expect the sample to completely be composed of dsDNA, whereas at 75 deg, I expect only ssDNA (since my melting temperature is around 50 deg). Thus, shouldn't my absorbance double from 0.5 to 1, instead of going from 0.5 to 0.7? The absorbance curve seems to be a bit weird. Typically, the change in absorbance around the Tm is not this slow, but very rapid. And at high temperatures, it should completely saturate. In my data, it does not saturate. Does this indicate that my DNA has not completely melted?

Similar questions and discussions