Development of a 3D non-hydrostatic pressure model for free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
This paper is made available with the permission of the Australian Mathematical Society Inc.
Applications of the artificial compressibility method for turbulent open channel flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
The definitive version may be found at www.wiley.com
A 3-D non-hydrostatic pressure model for small amplitude free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
The definitive version may be found at www.wiley.com
A hydrodynamic model of the incompressible Navier-Stokes equations for free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
Development of a 3D non-hydrostatic pressure model for free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
This paper is made available with the permission of the Australian Mathematical Society Inc.
Applications of the artificial compressibility method for turbulent open channel flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
The definitive version may be found at www.wiley.com
A 3-D non-hydrostatic pressure model for small amplitude free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
The definitive version may be found at www.wiley.com
A hydrodynamic model of the incompressible Navier-Stokes equations for free surface flows (2005)
Lee, J. W., Teubner, Michael D., Nixon, J. B., Gill, Peter Maxwell
Hadamard's Inequality for r-Convex Functions (1997)
Gill, Peter Maxwell, Pearce, Charles E. M., Pecaric, J.
Versions of the upper Hadamard inequality are developed for r-convex and r-concave functions.
Hadamard's Inequality for r-Convex Functions (1997)
Gill, Peter Maxwell, Pearce, Charles E. M., Pecaric, J.
Versions of the upper Hadamard inequality are developed for r-convex and r-concave functions.