@article{MAKHILLJEAS2017122014903,
    title = {Flow and Heat Transfer of Nanofluid over a Dynamic Stretching Sheet with
Non-linear Velocity and Thermal Radiation},
    journal = {Journal of Engineering and Applied Sciences},
    volume = {12},
    number = {20},
    pages = {5136-5146},
    year = {2017},
    issn = {1816-949x},
    doi = {jeasci.2017.5136.5146},
    url = {https://makhillpublications.co/view-article.php?issn=1816-949x&doi=jeasci.2017.5136.5146},
    author = {R.,A.G.,R. and},
    keywords = {Nanofluid,variable thickness,thermal radiation,non-linear equations,Optimal Homotopy Asymptotic Method (OHAM),Runge-Kutta method},
    abstract = {This study has focused on the development of the mathematical model of the nonlinear differential
equations with both Brownian motion and thermal radiation being present. The similarity variables were used
to transform the nonlinear governing boundary layer equations into ordinary differential equations. The
solutions to this problem were derived by using the Optimal Homotopy Asymptotic Method (OHAM) in which
the Runge-Kutta fourth order method with shooting technique was also used to validate the accuracy of our
results. In relation to the pertinent parameters on the velocity, temperature and concentration profiles such as
Brownian, thermophoresis, magnetic, shape, heat source and thermal radiation parameters have all been studied
and details are given in both tables and graphs, respectively. The results obtained are fascinatingly agreed with
the numerical solutions along with the previously published study.}
    }