M. Ş. Demir And S. BARIŞ, "MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate," International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5, pp.17-20, 2016
Demir, M. Ş. And BARIŞ, S. 2016. MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate. International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5 , 17-20.
Demir, M. Ş., & BARIŞ, S., (2016). MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate. International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5, 17-20.
Demir, Mehmet, And Serdar BARIŞ. "MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate," International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5, 17-20, 2016
Demir, Mehmet Ş. And BARIŞ, Serdar. "MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate." International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5, pp.17-20, 2016
Demir, M. Ş. And BARIŞ, S. (2016) . "MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate." International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials , no.5, pp.17-20.
@article{article, author={Mehmet Ş. Demir And author={Serdar BARIŞ}, title={MHD three dimensional stagnation-point flow of a Newtonian fluid towards a uniformly heated and moving permeable vertical plate}, journal={International Journal for Science, Technics and Innovations for the Industry, Machines Technologies Materials}, year=2016, pages={17-20} }