winds diverge and air sinks
spinning causes planetary perturbations as the planets revolve around sun.
Due to unequal distribution of pressure winds blow in perticular direction throughout the year and are reflected due to axial rotation of the earth.This is how planetory wind originates.
The movement of wind over the surface of the ocean causes friction. The wind drags the ocean surface with it, making the pattern called surface-ocean wind-drift currents.
west to east for the wind
A planetary year is the amount of time it takes a planet to orbit the Sun. A planetary year on Earth is 365.26 days.
Due to unequal distribution of pressure winds blow in perticular direction throughout the year and are reflected due to axial rotation of the earth.This is how planetory wind originates.
the corriolus effect
The term planetary winds can be defined in different ways: --Planetary wind can refer to any wind system of the earth's atmosphere which owes its existence and direction to solar radiation and to the rotation of the earth. --Planetary wind can refer to major winds that affect great portions of the earth rather than just local winds. --Planetary wind can also refer to gas loss from a planet into space, when the hydrodynamic wind in the upper portion of the planet's atmosphere allows light chemical elements to move up to the exobase. Those gases can then achieve escape velocity.
The pressure of the sun causes the wind to blow.
Wind, ice, and water are the causes of erosion
Janet G. Luhmann has written: 'Co-investigator participation in the Mars-94 mission studies of the Mars-solar wind interaction' -- subject(s): Magnetometers, Magnetotails, Mars atmosphere, Mars probes, Mission planning, Orbital mechanics, Plasma interactions, Russian space program, Solar wind velocity '[An investigation of solar wind effects on the evolution of the Martian atmosphere]' -- subject(s): Mars atmosphere, Photochemical reactions, Planetary evolution, Solar planetary interactions, Solar wind 'Solar wind effects on atmospheres of the weakly magnetized bodies--Mars, Titan, and the moon' -- subject(s): Mission planning, Planetary atmospheres, Planetary magnetic fields, Plasmas (Physics), Solar planetary interactions, Solar wind, Space plasmas