ScienceIQ.com

When This Lake 'Burps,' Better Watch Out!

Nearly twenty years ago, two lakes in Cameroon, a country in Africa, 'burped,' killing hundreds of people. What makes a lake burp? Lake Nyos and Lake Monoun are unusual lakes. They each formed in the crater of a volcano that is dormant but not extinct. Under the lake, the magma, molten lava deep in the earth, gives off gases, including carbon ...

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LakeBurps
Geology

Bryce Canyon

Bryce Canyon is a small national park in southwestern Utah. Named after the Mormon Pioneer Ebenezer Bryce, Bryce Canyon became a national park in 1924. ... Continue reading

BryceCanyon
Astronomy

It's a Supernova

Scientists have discovered that one of the brightest gamma ray bursts on record is also a supernova. It's the first direct evidence linking these two types of explosions, both triggered by the death ... Continue reading

ItsaSupernova
Biology

A Tickle is All in the Timing

It's often been noted that no matter how hard you might try, you can't tickle yourself. Why not? Whether it's your finger or someone else's, a prod in the ribs is a prod in the ribs. Why should only ... Continue reading

Tickle
Geology

Water In The Ground

Some water underlies the Earth's surface almost everywhere, beneath hills, mountains, plains, and deserts. It is not always accessible, or fresh enough for use without treatment, and it's sometimes ... Continue reading

WaterInTheGround

Many Happy Returns!

ManyHappyReturnsThe boomerang is a bent or angular throwing club with the characteristics of a multi-winged airfoil. When properly launched, the boomerang returns to the thrower. Although the boomerang is often thought of as a weapon, the device has primarily been used in hunting and served as a recreational toy. The boomerang consists of a leading wing and a trailing wing connected at the elbow. Each wing has the typical cross section of an airfoil. Therefore, each wing has a leading and trailing edge arranged so the leading edge strikes the air first as the boomerang rotates. Due to this configuration, there are right-handed and left-handed boomerangs. A left-handed boomerang is simply a mirror image of the right-handed boomerang. The typical angle between the wings is 105 degrees to 110 degrees.

As the boomerang flies through the air, each wing produces lift. Due to the shape of the boomerang a pressure differential exists between the lower and upper surface (on each wing) which creates aerodynamic lift. A boomerang is thrown with a spin which has two effects on the boomerang as it travels through the air: a stabilizing force known as gyroscopic stability and the development of a curved flight path. The turning force imposed on the boomerang comes from the unequal air speed of the spinning wings. For a stationary, spinning boomerang, both wings would produce the same amount of lift. Now applying the same spinning boomerang with a forward velocity and the speed of the air traveling over the wings differs. Thus, the forward moving wing experiences more lift than the retreating wing. The net result is a force which turns the boomerang.