Without the Coriolis effect, air would simply flow from low pressure areas to high pressure areas. The Coriolis effect causes deflection in the global wind patterns.
i know you go to lab. ~No I don't. But this doesn't solve my answer. If you're going to comment you must answer with a real answer. Thanks.
It deflects wind to the right in the northern hemisphere and left in the southern hemisphere.
Most of the ocean currents are affected by global winds and the Coriolis effect, which states that the apparent curving of the path from an otherwise straight path is due to the Earth's rotation. The movement of the ocean currents are also affected by the continents: because of global winds and the Coriolis effect, most of the ocean currents want to move a different way than they actually are because they are deflected off of the continents. An example is the South Equatorial Current and the Benguela Current flowing in a circular motion in between the east coast of South America and the West Coast of Africa. If these continents ceased to exist, the directions of the currents would change, based on the global winds in that area and the Coriolis Effect.
Ignoring the coriolis effect, winds blow form high to low, therefore the wind would blow from west to east, it would be a westerly wind.
Basic wind circulation in both the Northern and Southern hemispheres is from west to east because that is the rotational direction of the Earth, which imparts energy to the air mass by friction. The circulation is complicated by convection and advection, but averages west to east (or left to right) at all latitudes over time.
i know you go to lab. ~No I don't. But this doesn't solve my answer. If you're going to comment you must answer with a real answer. Thanks.
This is impossible. A cyclone cannot cross the equator. The reason why this cannot happen is because the Coriolis Force reduces to almost nothing at the equator. The effect on a cyclone would be to cause it to dissipate.
The Coriolis Effect only affects large bodies of water, for example, hurricanes are diverted from the equator because of the Coriolis Effect. The Coriolis effect would not affect a toilet enough to overcome the design of the fixture. The rim holes would start the swirling. Please read the Snopes page that explains this in greater detail. The link is attached.
There is no theorem named the Coriolis theorem. However, there is the Coriolis effect, which is an inertial force that acts on objects that are in motion relative to a rotating reference frame. The Coriolis effect is what causes objects to deflect to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. [Image of Coriolis effect] The Coriolis effect is named after Gaspard-Gustave de Coriolis, a French mathematician and engineer who first described it in 1835. Coriolis was working on the theory of water wheels when he realized that the rotation of the Earth would cause objects to deflect in different directions depending on their latitude. The Coriolis effect is responsible for a number of natural phenomena, including the direction of ocean currents and the movement of weather systems. It is also used in a number of engineering applications, such as gyroscopes and navigation systems. Here are some examples of how the Coriolis effect is at work in the world around us: **Ocean currents:** The Coriolis effect causes ocean currents to deflect to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. This is why the Gulf Stream, which flows from the Gulf of Mexico to Europe, curves to the east as it crosses the Atlantic Ocean. [Image of Gulf Stream in the Atlantic Ocean] **Weather systems:** The Coriolis effect also affects the movement of weather systems. For example, the Coriolis effect causes hurricanes to spiral counterclockwise in the Northern Hemisphere and clockwise in the Southern Hemisphere. **Gyroscopes:** Gyroscopes use the Coriolis effect to maintain their orientation. A gyroscope is a spinning wheel that is mounted in a way that it can rotate freely about two axes. The Coriolis effect causes the gyroscope to resist any change in its orientation. This makes gyroscopes very useful for navigation and stabilization. **Navigation systems:** Navigation systems, such as the Global Positioning System (GPS), use the Coriolis effect to calculate their position. GPS satellites emit signals that are used to calculate the distance between the satellite and the receiver. The Coriolis effect causes the signals to be slightly curved, and this curvature can be used to calculate the receiver's latitude and longitude. The Coriolis effect is a complex phenomenon, but it is one that has a profound impact on the world around us. By understanding the Coriolis effect, we can better understand the forces that shape our planet and the systems that we rely on every day.
Arguably Pluto ( no longer considered a planet) because it is the furthest from the Sun.
The Coriolis Effect is that an object flying in the air for a long time will not land directly north or south of where it is flying. It is more simply the rotation of the earth underneath a hovering object. I don't know how you would be protected from it. Are you sure that this is what you are asking about?
It deflects wind to the right in the northern hemisphere and left in the southern hemisphere.
nothing would happen but enviroment people would be happier!
the curving of the path would curve more than it is suppose to and the straight path due to the earths rotation would no longer be straight
It would be just like it is, the same things would happen with or without seismologists. (just as it would with or without any other humans)
Without the Internet, The World would tremble. Political Uprise would happen and many other things can happen.
there would be no wind!