ScienceIQ.com

How To Calculate The Circumference Of A Circle

A circle is what you get if you take a straight line and bend it around so that its ends touch. You can demonstrate this by taking a piece of stiff wire and doing just that: bring the ends of the wire together end a circle shape will be formed. A true circle has a center, and every point on the line that got bent around to make the circle is ...

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CircumferenceOfACircle
Geology

What Are The Differences Between Global Warming, Greenhouse Effect, Greenhouse Warming, And Climate Change?

The term Global Warming refers to the observation that the atmosphere near the Earth's surface is warming, without any implications for the cause or magnitude. This warming is one of many kinds of ... Continue reading

GreenhouseEffectClimate Change
Geology

A River of Sand

Next time you're at the beach or in the desert, climb a sand dune in bare feet on a windy day. Stand still in various places on the gently sloping windward side. Watch how wind-driven sand grains ... Continue reading

RiverOfSand
Chemistry

Why Doesn't Glue Get Hard In The Plastic Bottle?

Glue, in its many different forms, is a very simple-to-apply sort of thing that represents a surprisingly complex amount of chemistry and physics. On the face of it, what could be simpler? Put on the ... Continue reading

WhyDoesntGlueGetHard
Biology

Can You Drink Too Much Water?

Body fluids account for over 70% of an average adult's body. Our body fluids are composed of water and substances called electrolytes. Dissolved in water, these materials develop tiny electrical ... Continue reading

TooMuchWater

It's A Bird, It's A Plane -- No, It's A Clam!

BirdClamNot all animals glide or fly in the air. Many marine animals are masters of 'flight' and speed under the water. The ocean environment brings its own set of adaptations and specializations for the animals that move through it. One type of locomotion in the water is jet propulsion. The simplest example of this can be seen in jellyfish. These animals fill their umbrella section with water and then push the water out, sending the jellyfish in the opposite direction. This type of movement does not allow much control over direction. Salps are another simple animal that use jet propulsion to move. These animals are related to sea squirts and live in large chains, some as long as 100 feet. Each individual salp has two siphons (a tube for moving water), one for taking water in and one for expelling water. They have bands of muscles easily seen in their transparent bodies that contract and expand, forcing water in and out of the siphons. This propels the animal forward, but still with no control.

A more complex animal using jet propulsion is the squid. Some squid are able to reach speeds high enough to shoot them out of the water and onto the decks of passing ships! The squid has a muscular mantle (outer covering) which, when expanded, fills with water. When these muscles contract, water is expelled through a single siphon and the squid is propelled in the opposite direction. The squid can control its direction by rotating (moving) the siphon. Often the expulsion of water is accompanied by a puff of dark ink from the squid's ink sac in order to deter predators from following.

Several species of bivalves (two-shelled animals) such as scallops also use jet propulsion to get away from enemies, such as a predatory sea star. To do this the scallop must contract its two shells, which forces water out sending the scallop to safety. This is very exhausting and cannot be repeated often. Luckily, the scallop's predators are slow moving! Clams also use jet propulsion to move.