The scientist’s investigation covers issues in Mechanics, Oceanography, Stratified flow, Tidal power and Richardson number. His Mechanics study which covers Amplitude that intersects with Turbulence and Drop. His research in Oceanography focuses on subjects like Jet stream, which are connected to Atlantic multidecadal oscillation, Climatology and Sea surface temperature.
His Stratified flow research is multidisciplinary, incorporating elements of Flow and Geomorphology. His research in Richardson number tackles topics such as Instability which are related to areas like Shear flow, Shear velocity, Vorticity, Simple shear and Inviscid flow. His studies in Continental shelf integrate themes in fields like Thermocline, Wavelength, Baroclinity and Barotropic fluid.
Peter G. Baines mainly investigates Mechanics, Stratified flow, Internal wave, Climatology and Geophysics. His study looks at the relationship between Mechanics and topics such as Meteorology, which overlap with Flow and Ocean dynamics. His work in the fields of Stratified flow, such as Stratified flows, overlaps with other areas such as Terrain.
His Internal wave research focuses on Stratification and how it connects with Continental shelf, Barotropic fluid and Pressure gradient. Climatology and Environmental science are two areas of study in which he engages in interdisciplinary work. His Atlantic multidecadal oscillation research is multidisciplinary, incorporating perspectives in Interdecadal Pacific Oscillation and Climate change, Climate model.
His primary areas of investigation include Atmospheric sciences, Geophysics, Environmental science, Climatology and Internal wave. His Atmospheric sciences research integrates issues from Flow and Convection. His biological study spans a wide range of topics, including Meteorology and Stratosphere.
His study in the fields of Sea surface temperature, Northern Hemisphere and Southern Hemisphere under the domain of Climatology overlaps with other disciplines such as Biome. His study in the field of Atlantic multidecadal oscillation and Pacific decadal oscillation is also linked to topics like Hadley cell. Peter G. Baines interconnects Climate change, Climate model and Interdecadal Pacific Oscillation in the investigation of issues within Atlantic multidecadal oscillation.
Peter G. Baines mostly deals with Oceanography, Atlantic multidecadal oscillation, Sea surface temperature, Climatology and Geophysics. Many of his research projects under Oceanography are closely connected to Hadley cell with Hadley cell, tying the diverse disciplines of science together. The various areas that he examines in his Atlantic multidecadal oscillation study include Global warming, Climate model and Pacific decadal oscillation.
His Sea surface temperature research includes elements of Climate change and Thermohaline circulation. The Geophysics study combines topics in areas such as Baroclinity, Stratification, Internal wave and Inertial frame of reference. Peter G. Baines has researched Internal wave in several fields, including Seamount and Barotropic fluid.
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Topographic Effects in Stratified Flows
Peter G. Baines.
On internal tide generation models
Deep Sea Research Part A. Oceanographic Research Papers (1982)
On thermohaline convection with linear gradients
P. G. Baines;A. E. Gill.
Journal of Fluid Mechanics (1969)
The generation of internal tides by flat-bump topography
Deep Sea Research and Oceanographic Abstracts (1973)
Decadal to multidecadal variability and the climate change background
David Parker;Chris Folland;Adam Scaife;Jeff Knight.
Journal of Geophysical Research (2007)
A unified description of two-layer flow over topography
Peter G. Baines.
Journal of Fluid Mechanics (1984)
Observations and Modelling of Antarctic Downslope Flows: A Review
Peter G. Baines;Scott Condie.
Evidence for a Rapid Global Climate Shift across the Late 1960s
Peter G. Baines;Chris K. Folland.
Journal of Climate (2007)
Upstream Blocking and Airflow Over Mountains
Peter G. Baines.
Annual Review of Fluid Mechanics (1987)
The Generation of Internal Tides over Steep Continental Slopes
P. G. Baines.
Philosophical Transactions of the Royal Society A (1974)
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