ScienceIQ.com

Hollywood To The Rescue

Sixty years ago, World War II was driving many advances in the sciences; a surprising number of these developments have evolved to impact our lives today. At the beginning of the war, scientists and engineers were finding new applications for radio waves. For example, they used the discovery that waves would reflect off objects to create Radar, and ...

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HollywoodRescue
Astronomy

Magnitude of an Astronomical Object

'Visual magnitude' is a scale used by astronomers to measure the brightness of a star. The term 'visual' means the brightness is being measured in the visible part of the spectrum, the part you can ... Continue reading

MagnitudeofanAstronomicalObject
Biology

Sweet Dolphin Dreams

Imagine if your breathing wasn't an automatic response. That might work during the day. But what about when you went to sleep? You wouldn't get a good night's sleep if you had to wake up every few ... Continue reading

DolphinDreams
Engineering

Hydropower Basics

Flowing water creates energy that can be captured and turned into electricity. This is called hydropower. Hydropower is currently the largest source of renewable power, generating nearly 10% of the ... Continue reading

HydropowerBasics
Astronomy

Venus Is Hot Stuff

At first glance, if Earth had a twin, it would be Venus. The two planets are similar in size, mass, composition, and distance from the Sun. But there the similarities end. Venus has no ocean. Venus is ... Continue reading

VenusIsHotStuff

Don't Make Waves

SwimmingPoolsFast and slow swimming pools? What are they? A given pool's walls and other components may create and reflect waves making it more difficult (slow) for athletes to swim. A fast pool minimizes wave interference with the athletes making it easier (fast) for the athletes to swim.

There are different types of waves which move matter differently. When you toss a small stone into a body of water, waves are formed from the point the stone hit the water. The waves form a circular pattern around this entry point and spread farther and farther apart in a single wave pattern. When you look at these waves, you can see the crests (high points) and troughs (low points). Only a few crests and troughs are created. But when you drop 2 or 3 stones into the water at the same time, you have more waves and these waves interact with one another.

Imagine 8 lanes of Olympic swimmers! Each swimmer's motion generates a series of waves. These waves can move across the lanes and interact with one another and against the athletes in different directions, making it more difficult to swim and slowing down the athletes' times. Have you ever had to walk into the wind? It's more difficult than on a calm day. Similarly, swimming into waves is more difficult than swimming in calm water. The water in fast Olympic pools 'spills over' the walls of the pools. This minimizes wave reflection and interference.