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Category: Projects 4 Meteorologists

5 Minute Puddle

Posted on by Emily Hunt

5 Minute Puddle

You will need

  • Chalk
  • A bowl of water
  • A timer

How to do it

  1. Create a puddle on a sunny outdoor surface by gently spilling water on it.
  2. Draw around the perimeter (outside) of the puddle using chalk.
  3. Start the timer and watch!
  4. Stop the timer after 5 minutes. How much of your puddle is left?

What are we learning

Evaporation is a process that occurs when a liquid changes into a gas. On a warm, sunny day, air molecules move quickly with energy from sunlight, and water molecules in the puddle are warmed by the sun’s heat. When energetic air molecules collide with water molecules on the puddle’s surface, some water molecules receive enough energy to break free from the puddle, becoming water vapour. This reduces the amount of water in the puddle, so it shrinks. You will notice that a puddle with the smallest surface area takes the longest to evaporate. This is because there is less surface area exposed to the air.

Investigate

Create two puddles, one smaller and one bigger, and time them. Which puddle evaporated the fastest, the one with the bigger or smaller perimeter?

Careers associated with this activity

Falling Raindrops

Posted on by adrian@webdesigncity.co.uk
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Falling Raindrops

What holds raindrops together?

  • A pipette or syringe
  • Water
  • A piece of A4 paper
  • A pen
  • A plastic wallet

How to do it

Fill the pipette or syringe with water. Then carefully add drops of water to the raindrop outline. How many drops of water can the raindrop hold before the water spills over the edge?

Repeat the activity on a raindrop of a different size or shape.

  1. Begin by drawing outlines of raindrops onto a piece of paper. Try to vary the size and shape of each raindrop.
  2. Place the paper inside a plastic wallet and position it on a flat surface. The plastic wallet helps to protect the paper from getting smudged or damaged as you add the water.
  3. Fill the pipette or syringe with water. Then carefully add drops of water to the raindrop outline. How many drops of water can the raindrop hold before the water spills over the edge? 
  4. Repeat the activity on a raindrop of a different size or shape.

What are we learning

As we add more drops of water onto the raindrop we see a dome shape forming. The water molecules are attracted to each other and make a single large drop. At the same time, a property called surface tension tries to minimise the surface area of the water, making the curve shape. This also prevents the water from spilling out. However, as we add more drops, the gravitational pull on the weight of the water eventually becomes more powerful than the surface tension, causing the water to spill.

As raindrops fall from the sky they begin their journey as a sphere shape. As they fall to the ground, the force of gravity pulls them downwards. The force of air resistance pushes up against them, flattening the bottom of the raindrop.

Investigate

Repeat this activity on a penny coin. Which side holds the most drops of water, heads or tails?

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    MAIN IMAGE 1
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    Photo 08 04 2020 16 28 26 2
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    Photo 08 04 2020 16 28 26
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