We report an experimental study of lensless ghost imaging by measuring reflected photons from an object using pseudo-thermal light radiation. A laser beam is passed through a multiple scattering medium to produce pseudo-thermal random light. Ghost image of the object is reconstructed by measuring the second-order correlation in intensity fluctuation. The study is conducted to explore the sensitivity of the imaging technique for the source parameters, i.e. coherence width and transverse size of the source. It is found that the higher the coherence width of the source higher is the visibility but the quality (resolution) becomes poor. However for higher transverse size of the source improves image quality. In addition it is verified that the ...