Can water go uphill? A rainbow water experiment

Can water go uphill? A rainbow water experiment

Can water go uphill? The answer is… yes it can! In some ways anyway; water can travel upwards by a process called capillary action.

Capillary action can be described as water climbing upwards due to weak forces created between the water molecules and the material the water moves up along, or through. In the experiment below the water travels up the paper towel, forming these forces with the paper towel as it creeps upwards.

For this experiment you will need…

  • six clear cups or bottles
  • six pieces of paper towel, folded length-ways into long strips
  • A jug of water
  • Food colouring… red, yellow and blue

What you do…

We arranged our six bottles in a circle (but you could do this in a straight line too, if you want to create the same colours as us, you will need seven bottles in a straight line, with one colour repeated… think about it 😉 )

Half fill every second bottle with water, leave the other bottles in between empty.

Add a few drops of food colouring to each bottle containing water, red in one, yellow in the next and blue in the next.

Now take a piece of the folded paper towel and place one end into the bottle containing red-coloured water, and the other end into the empty bottle beside it; make sure the paper towel sits into the coloured water.

Take another paper towel and place one end in the empty bottle (that is now connected to the red-coloured water bottle) and the other end into the bottle containing yellow-coloured water.

Repeat this all around the circle so that the paper towel ‘wick’ goes from the yellow-coloured water bottle to an empty bottle and another from that empty bottle to the blue-coloured water bottle; finally place a paper towel ‘wick’ from the blue-coloured water bottle to an empty bottle and another from that empty bottle to the red-coloured water bottle.

When all set up it will look like this…

walking-water-1

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Then all you have to do is wait! You should see the water starting to climb up the paper towel ‘wicks’ within a few minutes. Leave the experiment for a few hours or overnight to get the final result.

Results:

Eventually the water will travel up one side of the paper towel and down the other side, starting to fill the empty bottle. As water comes into the empty bottle from each side, the two colours of water will mix.

The red and yellow-coloured waters will mix in the bottle between them, creating orange-coloured water.

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The yellow and blue-coloured waters will mix in the bottle between them, creating green-coloured water.

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The blue and red-coloured waters will mix in the bottle between them, creating indigo-coloured water.

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You will notice that all the bottles have now got about the same amount of water in them. Once this happens no more water will transfer between bottles.

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What is happening?

As mentioned above, the water is able to climb up the paper towel due to these forces, called adhesive forces, that form between the water molecules and the paper towel.  This process is called capillary action.

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On the subject of water, if you ever wondered why our fingers wrinkle in the bath check out my recent Appliance of Science column in the Irish Examiner. 

Netflix Stream Team – five documentary recommendations

Netflix Stream Team – five documentary recommendations

We all love a series or a good movie and Netlfix delivers both, but sometimes it is nice to get stuck into a good documentary and there are plenty on offer, covering a wide range of topics. Here are some we have really enjoyed and would recommend.

Between the folds

This one a great one to watch this week as it is Maths Week and there are mathematical applications to the art of folding paper. This documentary on Origami is more interesting that you might imagine and really covered every angle, the art, the craft, the mathematics and the engineering. Definitely one to watch.

Valley uprising

A very interesting documentary about rock climbing in Yosemite National Park. This started as a trend in the 60’s and became an almost cult like phenomenon. The documentary takes a look at the challenges that were set, the amazing feats that were achieved, interviews with many of the original climbers and a look at how the sport, and the equipment, changed over the years.

The Barkley Marathon

Another documentary on an extreme outdoor pursuit this follows a yearly marathon challenge – otherwise known as ‘the race that eats its young!’. As the event has grown in popularity people come from all over the world, to see if they can complete the course in the designated 60 hours. There are many years that no-one completes it at all, but take a look and see if any records were broken during the documentary.

A Girl Like Her

This wasn’t a real documentary at all, but it was filmed in that documentary style, a movie that masquerades as a documentary. It follows the story of a girl who is being bullied at high school and takes a look at the event from both perspectives – the bullied and the bully. Although not based on true facts, it was thought provoking and does give a little more insight into a real life problem for many teens today.

Trees of life

A lovely take on trees in the African wildlife, their intricate relationship with the animals around them and how both animals and trees influence and rely on each other.

trees-of-life

 

Disclosure: As a member of the Netflix Stream Team I have received a years subscription to Netflix, free of charge, and an Apple TV, for streaming purposes. As part of Netflix Stream Team I will be posting monthly updates on what we are watching and what is on offer.  All opinions expressed will be my own.

Five Fun Facts about Pigs

Five Fun Facts about Pigs

Pigs are a common topic in this house because they are my youngest’s FAVOURITE animal! So much so that we have had to rename bacon, ham and sausages when serving them for dinner! The swine related questions come in a constant stream. Here are just dome of the facts we have uncovered about these lovely animals.

Five Fun Facts about Pigs

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If you would like to find out more about these fascinating animals, check out my latest column in the Irish Examiner and read all about whether pigs dream or not and other random facts. If you have a question you would like me to answer in the column, just send it to me at drhowsciencewows@gmail.com

 

The Realex Web Awards – A win for Science Wows

The Realex Web Awards – A win for Science Wows

Last week had some really big dates in my diary. On 28th September my youngest child turned seven…. and the Realex Web Awards were on in Liberty Hall Theatre in Dublin. It was a case of nothing on for weeks and then everything falling on the one day. I was looking forward to starting the day with the excitement of opening presents with a brand new seven year old and finishing the day with the excitement of the awards. Things don’t always go to plan though and when a sick child was thrown into the works it was time to settle for a virtual awards ceremony via twitter and the trending #RealexWebs16 hashtag.

So I made the school lunches with phone in hand, while following along with the announcement of each winner. I reluctantly put the phone away while I helped put the kids to bed, having extra cuddles and chats with the seven year old after his very exciting day. When all were tucked up in bed I took my phone up again. It was with great shock that I noticed Science Wows mentioned, as I scrolled through the tweets.

I had just won BEST EDUCATION/THIRD LEVEL WEBSITE!

It took a moment to sink it and I was probably the only pyjama clad winner on the night, but it didn’t stop me celebrating! Everyone was back out of bed with all my excited shouting and there was lots of hugging and jumping about (that may have been me more than the children, but let’s include everyone in the activity for the sake of the memory!). Needless to say I was very shocked and very, very, pleased!

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I set up Science Wows five years ago, and it has been a wonderful learning curve and a true labour of love. This website and blog have become a passion. I love that they provide a medium to share everything I want to share. A tool to talk, to design, to challenge, to experiment and to learn; and it is a two way communication. Sometimes it has been a lonely road but the highs have been great. For all the hours spent writing, or researching or testing are always balanced by the comments and the interaction and the feedback. And for this I am truly grateful. The feedback on the night of September 28th is more than I ever imagined.

Thank you all for the journey so far; for reading and interacting, for sending in your questions and ideas. For the support and encouragement and tips and advice. I didn’t make it onto the stage to thank you all on the night but I’d like to say it now!

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I’d also like to say a very big thank you to David from A Tribal Vision for stepping in and accepting the award for me. The website shares a beautiful project, a series of interview conducted with some of Galway’s most creative and innovative individuals. Make sure to take a look.

New Kids’ Science TV show – Is Eolaí Mé

New Kids’ Science TV show – Is Eolaí Mé

I am delighted to tell you that Is Eolaí Mé is starting next Tuesday 20th September, on Cúla 4, TG4, at 17.25pm. It has been almost a year since filming of the show wrapped, you can take a look at my behind the scenes account here. As consultant and script writer on the show, I am extremely excited to be able to finally watch it on TV.

Here is a little preview…

What to expect

Each show will be jam packed with lots of amazing Science. The presenters, Una and Peadar will explore a different theme each week… and explore is definitely the right word to use; they will be out and about finding fun ways that science is used in real life. From rocket launching to surviving an indoor storm and so much more in between. I

Is Eolaí Mé is presented by Peadar Ó Goill & Úna Ní Fhlatharta and produced by Fíbín.

Each week Una will be joined by a group of children, keen to help her roaming reporting on the science topic of the day.

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When Peadar is not out testing his endurance skills in the name of science, he will be in his amazing loft lab, testing theories, trying out the latest experiments and even sharing ones to do at home.

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Peadar will be joined in his loft by some amazing young scientists who are always up for the adrenaline-pumped science challenge of the day.

Then there are the antics of An t-Ollamh Ullamh and his reluctant side-kick, Aodh, that will definitely add an hilarious comic angle to each programme.

And all that is only the tip of the iceburg, you will be amazed at just how much science is packed into the half-hour programme. So set your alarm clocks, tell your parents and teachers and get ready for kick off next Tuesday! The show will air twice a week, for double the fun; Tuesdays and Thursday at 17.25, and, of course, also available on TG4/Cúla 4 player.

I’ll leave you with this little video… showing Peadar running across a bath of white liquid! How does he do it? You’ll have to tune in to find out!

Check it out… Is Eolaí Mé, every Tuesday and Thursday, 17.25 on Culá 4, TG4. Starting 20th September, 2016.

 

 

In your Dreams – the science of why, how and when we dream

In your Dreams – the science of why, how and when we dream

Dreams, we all have them, some we remember, some we don’t! There are those who want to analyse every detail of their dreams, seeing them as portents to future events or windows into our souls. Some dismiss dreams as a nothing more than random images as a byproduct of brain activity.

Regardless of what camp of dream analysis you belong to, you may like to know a bit more about the why, how and when of dreams, to fill in the blanks and give a better understanding of what happens when we close our eyes at night.

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Are there different types of dreams?

Dreams are a series of images, emotions, senses or events that we experience while we sleep. They are created in the brain, during different brain impulses and can last from a few seconds, to more than half an hour. There are a number of different types of dreams, the classifications vary depending on who you talk to, but in general we experience regular dreams, lucid dreams and nightmares.

The three basic types of dreams are…

  • Regular dreams usually occur when we are in a deep sleep phase, such as the REM (Rapid Eye Movement) stage of sleep.
  • Lucid dreams usually occur when we are in a lighter stage of sleep. We are at least partially aware that we are dreaming and we can consciously change the course of the dream if we so choose.
  • We are all familiar with nightmares and they are not just for children. They are dreams that evoke strong emotions and reactions within us, usually fear, terror, anger or anxiety.

What happens when we dream?

In order to talk about dreaming we must first look at what happens when we sleep and the different stages involved. There are five stages of sleep, stages 1, 2, 3, 4 and the Rapid Eye Movement (REM) stage.

We pass from each stage of sleep sequentially, usually falling into a deeper sleep with each stage. Once we have completed a full cycle (stages 1, 2, 3, 4 and REM) we return to the first stage and the cycle repeats. A full cycle takes between 90 and 110 minutes.

Stage 1

This is a very light stage of sleep, our bodies relax, our muscle activity slows and we experience slow eye movement.

Stage 2

Our eye movements stop, our muscle movements reduce and our brain waves slow down; Our heart rates slow and our body temeratures drop a little. We also experience burst of rapid brain wave activity in this stage, these are called brain spindles. Adults spend about 50% of their sleep time in this stage, this reduces with age.

Stage 3

We enter deep sleep, with some periods of very slow brain waves recorded.

Stage 4

The periods of very slow brain waves extend.

REM Stage

Our eye movement becomes erratic and jerky, our heart rates rise, breathing becomes more rapid and our limbs become temporarily paralysed. We spend about 20-25% of our sleep time in this stage (infants can spend up to 50% of sleep in the REM stage).

The REM stage of the first cycle of sleep is fairly short (about ten minutes) but increases in duration with each cycle (up to an hour in the final cycle).

Stages 1 to 4 of sleep are collectively referred to as the non-REM stages (NREM).

We dream at all stages of sleep but most of our dreams are thought to occur during the REM stage. Studies show that we tend to have different types of dreams at different stages of sleep; In the early stages, we have very short dreams but they are more realistic and relatable. As we move into deeper sleep our dreams tend to become more fragmented. As the night progresses and we experience longer REM states our dreams become more obscure and disjointed.

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Why do we dream?

There are a number of theories as to why we dream, but scientists are still not sure. Some say that dreaming is an asinine activity that serves no purpose, but most agree that this is not the case, although they may argue as to the true value of dreams.

Dreaming has no purpose at all

In 1977 psychiatrists J. Allan Hobson and R.W. McCarley theorised that dreams don’t actually mean anything at all. They called their theory the ‘activation-synthesis hypothesis’ and stated that dreams are merely electrical brain impulses that pull random thoughts and imagery from our memories.

Dreaming is an ancient biological defence mechanism

Evolutionary biologists studying dreams and their function have proposed the Threat Simulating Theory (TST) of dreaming.

The threat simulation theory of dreaming states that dream consciousness is essentially an ancient biological defence mechanism, evolutionary selected for its capacity to repeatedly simulate threatening events.

Basically, dreams are seen as a simulation, a way to prepare our bodies and hone our skills for the right response in potentially threatening situations. By experiences threats and events in our mind (like being chased by a wild animal!) we can train our bodies to respond correctly if or when the threat really does appear in real life. We can develop our neuro-cognitive mechanisms.

The TST also suggests that people under threat in their everyday lives will dream more, as a way to exercise and prepare for the dangers they may experience each day. There is some evidence to suggest this is the case.

Scientists in favour of this theory also quote the fact that a convincing 70% of our dreams are made up of such threatening scenarios.

Dreams help us solve problems

It is possible that dreams help us unravel and review all the complexities we have experienced during our waking hours. Without the restrains of our conscious, logical thinking we can view things from a completely different angle. Some people can wake after a night of sleep with their eureka moment, solving a niggling problem, literally while they catch some z’s. Perhaps the most famous case is that of the chemist August Kekule, who supposedly discovered the benzene ring structure after dreaming of atoms linking together in a chain and then twisting, like a snake biting his own tail, into a ring structure.

The famous American writer, John Steinbeck called this the ‘committee of sleep‘…

It is a common experience that a problem difficult at night is resolved in the morning after the committee of sleep has worked on it

How does all this free thinking work? Daytime events and often recorded in fragmented forms in different regions of the brain. The ‘memory’ is held together by interaction of those brain parts with the hippocampus. During certain stages of sleep these connections are lost, but brain activity in each of these regions may continue. This ‘untethered’ brain activity can provide the freedom of thought and creativity that is constrained in the waking hours.

We dream to fulfil our desires

This brings us back to Freud who believed that our dreams were a manifestation of our basic, unconscious desires and urges. He believed that to better understand our own psychological makeup, and issues, we needed to record and analyse the content of our dreams.

We dream to help us process our emotions

Do we dream to help us process emotional events in a safe way? When we sleep the levels of certain stress hormones  in our bodies are reduced, therefore we can reflect on a stressful situation or event, in a safe place, where the stress response has been toned down.

Studies have observed high activity in the amygdala during the REM stage of sleep. This is the area of the brain associated with emotions. This suggests that, while sleeping, our brains access emotional events and memories while the stress neurochemicals (norepinephrine) are suppressed, allowing us to process and resolve any emotions or traumas. We wake feeling better about an event that may have caused us stress the day before.

Dreaming is an important part of our memory storing process

The process of dreaming may help us strengthen, connect and store memories. In order to full consolidate our memories we need to strengthen links between different areas of the brain that have recorded information from the memory, and to integrate the information with previously stored knowledge.

The most basic function of dreaming consists of connecting new material with old material in memory systems; reorganising the memory systems, guided by emotion. (Hartmann, 2011).

Sleep creates an optimal  environment to allow memory links to be repeatedly activated without the interference of external stimuli. This reactivation strengthens the neurological pathways that link the various parts of the memory as well as creating links with older memories and learning.

MRI studies have shown that brain areas associated with short and long term memory consolidation (hippocampus and amygdala) are activated while we dream.

Different types of memories may be consolidated at different stages of sleep; the episodic memories are best processed during NREM stages, while more sensory, procedural and emotional events are likely integrated during REM stages.

 

How long do dreams last?

Dream length varies, but on average our dreams start off short and get longer as the night progresses. Although some dreams may only last for seconds, our first dream of the night is usually about five minute long, our last dream can be as long as 45 minutes. As most of our dreaming occurring during the REM stage of sleep, as this stage gets longer, so too do our dreams.

Most people have at least two to three dreams per night, with the average being six to seven. We spend about two hours a night dreaming, which can add up to a whopping six years of dreaming in a lifetime!

 

These theories and insights are fascinating but there is still much to learn. Scientists will continue to research, study and debate the importance of the dreaming process, but, looking at how much of our lives we spend dreaming it is certainly a worthwhile study. 

 

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What do Forrest Gump, horses and music have in common?

What do Forrest Gump, horses and music have in common?

What kind of music do animals like? Can cows tell the difference between classical and rap? Which animals are partial to a bit of REM and what do Forrest Gump, horses and music have in common? Science has the answers!

Before my first child could even speak we had noted her reaction to music. Just having the radio on in the background we often observed a change in her posture or mood depending on what was playing; in fact, we frequently had to turn off the radio when a slow or sad tune would reduce her to tears.

This has fascinated me ever since, from the effect of music on our mood, our health, and our brain development. I never gave much thought though to the effect, if any, of music on animals. That is, until today. A good friend called round for a chat and fascinated me with something she had heard on the radio about the effect of  the theme tune to Forrest Gump on the emotional state of horses. My interest was piqued. With a little research, it seems many animals respond in different ways to different types of music, just as we do. And for the animals that have no interest in ‘human’ music at all… there is now species-specific music created just for them!

Music with a Meow in mind

It would appear that cats are not terribly impressed with any of the music composed for our human ears. They show little or no reaction to it. However, this prompted a small team of scientists (Snowdon and Savage) and a composer, David Teie, to look at just what might appeal to our feline friends. With much study and research, they created music with cats in mind, composed of tones, pitches and frequencies that would most appeal to cats, and mimic what is in their natural environment. They have reported that the cats they studies showed an increased interest and preference in the species-specific music (with greater positive responses in younger and older cats when compared to middle-aged cats).

REM keeps these cows ‘udderly’ content

Many farmers know that playing music to their cows keeps them calm and happy during milking. In 2001 a study run by a group of Psychologists from the University of  Leicester, UK,  played music of different tempos to herds of more than 1,000 Friesian cattle. The results were impressive: they played a variety of music, from slow, classical, techno and rap to the animals for 12 hours a day, over nine weeks. While they found no increase in milk yield when playing fast tracks to the cows, they reported a 3% increase in each animal when slow music was played; that is about 3/4 of a litre or one and 1/2 pints of milk extra per cow, per day.

What tunes did the cows seem to enjoy the most? “Everybody hurt” by REM and “Bridge over troubled water” by Simon and Garfunkel were apparently popular for increasing milk yield and keeping the ladies calm!

Based on this knowledge, the British Columbia Dairy Association decided to jazz things up a little by inviting people to compose some mellow cow tunes and enter them into their “Music makes More Milk” contest. Finalists had to impress the jury of five Holstein cows. The winning tune (if you really need to know) was titled “A Moo down Milk Lane”.

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Image source:pixabay.com

Moving on from bovine Moosic we finally come to the horse part of this story! What do our equine friends think of our human music?

Music keeps them ‘stable’

A 2015 study on purebred Arabian race horses looked at the emotional and performance levels of the horses when exposed to classical music in the stable area. The initial results of the study suggested that the horses exposed to classical music exhibited reduced stress levels (determined by measuring cardiac activity variables) and an increase in performance (as measured by their overall wins). These observations peaked at the two to three-month phase of the study and then dropped back to normal levels over time (suggesting that the horses became accustomed to the music and it had less effect).

Horse at stable door

photo credit: What you looking at? via photopin (license)

The music used in the study was specifically composed with horses in mind. What about human music?

That’s a ‘neigh’ for jazz

A 2013 study tested horses’ emotional responses to classical, country, rock and jazz. The results from this small study suggested that classical and country music had the most calming effect on the animals tested and the fast tempos and minor keys of the jazz music put the animals more on edge.

Then someone decided to try a little Forrest Gump theme music! (Finally!!)

Trot Forrest Trot!

From specific genre to a specific piece of music… the Forrest Gump theme tune. This classical piece, by Alan Silvestri, was chosen for its ‘repeatability’. The study was carried out using horse from the French National Stud. 48 horses were fitted with newly designed horse headphones; half of the horses were played the Forrest Gump theme tune while travelling in horseboxes; the other half were played the music while being shod by a farrier. Both these events will typically increase stress indicators in the animals.

And the results? The horses that were played music during transport showed the greatest reduction in stress indicators. This could be very good news for trainers and owners of horses that often have to travel internationally for events. The effect in the animals that were being shod was less effective, although both groups showed a quicker heart rate recovery afterwards.

Personally, I find these results fascinating. I grew up around horses and found them very sensitive creatures, in tune with everything in their surroundings. I love the idea of reducing their stress in any way possible. And I listened to the Forrest Gump theme tune while I wrote this piece, it certainly brought me to my calm place!

Have a listen.

What do you think? Have you ever noticed a pet respond to a particular type of music? What kind of music was it? Or what favourite piece would you like to see used in these experiments? Have you any favourite animal music stories of your own? Let us know in the comments below!

Mystery Creature Revealed – the Sea Squirt

Mystery Creature Revealed – the Sea Squirt

Well done to six-year-old Daniel who correctly identified the Mystery Creature (again). Daniel really knows his animals! The Mystery Creature was a sea squirt… a very interesting animal, here are just a few reasons why.

  • Sea squirts come in many shapes and sizes, there are more than 3,000 species of them. They are officially called tunicates (the name refers to their tunic like exterior). Depending on their size and shape they are also called sea pork, sea tulips, sea pineapples and sea liver. Sea squirts get their name from their tendency to compress their bodies and squirt out water when disturbed.

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Sea Pineapple: Image credit: Project Manhattan; Image source: wiki commons
  • Tunicates are widely distributed through the World’s oceans, but most are found in warm seas. Although there are exceptions, most sea squirts spend their adult lives attached to a solid object, usually on the seabed.
  • They start their lives in egg form but quickly grow into tadpole-like larvae (often within a matter of hours), with a tail and a basic type of backbone, called a notochord. In this form, they are unable to feed and their primary function is to find a suitable place to attach themselves, for the rest of their lives. Some species, such as the larvaceans never anchor, instead, they retain their tails which help to propel them through the water.
  • Once the sea squirt larva (tadpole-like form) finds a suitable place to anchor, it will attach, head first, glueing itself in place with a sticky like secretion. Next comes a large transformation, it reabsorbed much of its body (including its tail, notochord and basic eye) and recycles them into its adult structure.
  • The adult structure of most sea squirts consists of a sac-like body with two siphons – water is sucked into one and forced out of the other. Most sea squirts are filter feeders, they take in seawater and filter our plankton and nutrients, ejecting the filtered water back out of their bodies.

Sea_Squirts

Image credit: Silke Baron; Image source: Wiki commons

  • During the transformation from larva to adult, the sea squirt reabsorbed many parts of its body,transforming them into adult organs. Sea squirts are known for ‘eating their own brain‘ in this manner, as they reabsorb the basic brain of the larva during the transformation. It is not quite as simple, or dramatic as the statement suggests, though, adults do contain a hollow cerebral ganglion, a brain type structure with nerves feeding out to certain parts of the body.
  • Most sea squirts are hermaphrodites, meaning that they contain both male and female organs. Many can also reproduce by budding, a process whereby a new animal buds off and grows from the parent, eventually disconnecting once fully formed.
  • Although there are some solitary species of sea squirts, most live in groups or colonies.

Thanks again to Daniel for correctly identifying this Mystery Creature, it really is quite an amazing animal. Check back next week for another new Mystery Creature!

 

 

 

Ten science experiments you can do with a plastic bottle – Part 2

Ten science experiments you can do with a plastic bottle – Part 2

We are back with more bottle science experiments! How did you get on with the first five we shared last week? We have had plenty of feedback from people who tried them out and really enjoyed them so here are five more bottle science experiments to try!

You can find experiments 1 to 5 in this post!

REMEMBER: YOU NEED ADULT SUPERVISION FOR ALL THESE EXPERIMENTS 

6. Using Friction to defy gravity

 

7. The Hovercraft Experiment

 

8. The Cloud in a Bottle Experiment

 

9. Bottle Rocket Experiment No. 1

This video doesn’t include the science of how it happens, so here it is! As you know from previous experiments… when we mix the vinegar and the bread soda the react rapidly making a salt, water and Carbon Dioxide gas. Gases usually take up more space than liquids or solids so the sudden production of Carbon Dioxide gas causes a rapid increase in pressure inside the bottle. The gas wants to break out of the confined space within the bottle but the cork is in the way. With enough pressure the cork is forced off and the gas escapes.

Newton’s Thirds Law of motion states that…

Every action has an equal and opposite reaction!

This law is what makes the rocket shoot into the air. The first ‘action’ is the cork shooting off the bottom of the bottle; this produces the ‘equal and opposite’ reaction of the bottle rocket shooting off in the opposite direction! It all follows the laws of physics!

10. Bottle Rocket Experiment No. 2

This rockets follows the exact same law as the previous experiment, except this time the pressure is built up by the air we pump into the bottle. This pressure eventually builds up forcing the cork, and the water, out of the bottle and the rocket is then propelled off in the opposite direction, shooting up into the sky.

And there you have it! Ten fantastic experiments to do with a plastic bottle. If you missed the first five you can find them here! Please let us know what you thought of this series and how you got on. If you like these video experiments and would like some more just let us know in the comments below and we will get working on a new series straight away!

ENJOY!

 

Ten science experiments you can do with a plastic bottle – Part 1

Ten science experiments you can do with a plastic bottle – Part 1

Do you love science and want to try out some experiments yourself? Do you worry that you’ll need special equipment and expensive kits? FEAR NOT! There are so many science experiments you can do with things you have around your home RIGHT NOW! Just remember to always ask an adult’s permission. Finish drinking your water and save that bottle because we are going to share TEN amazing experiments with you… you’ll never look at a plastic bottle in the same way again!

A few months ago I promised to share ten experiments you can do with a simple plastic bottle. If you have been following me on Face Book you will have noticed that I have shared one every week and we reached ten no problem; I’ve compiled all the instruction videos here so that you can pick and choose which ones you want to do (or, even better, try all ten).

The reason I started this was because I was sick of seeing science experiment kits full of rubbish (I am not saying all science kits are rubbish, but I have seen my fair share lately). I wanted to show you that you can do plenty of science experiments from things you have around your own home. And what better example to use than a simple, humble, plastic bottle. A great example of reusing and recycling.

PLEASE NOTE: ALL THESE EXPERIMENTS REQUIRE ADULT SUPERVISION!

Without further ado… here are first five Science Experiments you can do with a plastic bottle:

  1. make a fire extinguisher

 

2. Inflate a balloon

 

 

3. The Sneezing Alien Experiment

 

4. and 5. Ocean in a bottle experiment and Lava Lamp experiment

 

Those are the first five experiments. Have lots of fun with them, check back next week for the next five experiments. Remember to keep those bottles!

As always, we love to get comments and feedback so do let us know if you try some of these experiments; we’d love to know how you get on, did you make some of your own modifications and improvements to the experiments? Would you like us to share more video experiments?