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Wednesday, December 9, 2009

Can lightning re-start your heart?


As lightning can strike in the same place twice if you get struck by lightning and it stops your heart and then you get struck by it again would it restart you heart?

Firstly the short answer is yes, it is possible that being struck twice by lightning would firstly stop your heart and then restart your heart. The answer is a bit more complicated than that though. The heart cells maintain a voltage drop across them which controls the inflow and outflow of ions. These ions allow the heart to beat. If the heart’s struck by lightning that voltage drop is immediate and the heart will contract. Unfortunately if the lightning strikes the heart at the wrong part of its relaxation the cells will not contract together, rather chaotically. The heart will enter a rhythm called fibrillation. This doesn’t allow it to pump. For that reason the pulse would stop and the heart would be said to be arrested.

If a second strike of lightning or an electric shock occurred at the same point when a heart was fibrillating it would be possible that the heart cells would all contract together in a more ordered fashion. However, there is a problem. The heart could also be struck by lightning and instead of going into this fibrillating chaotic rhythm it could go into no rhythm at all. It could quite simply not beat again. That’s called asystole. It doesn’t end there unfortunately, our poor unfortunate victim also suffers elsewhere. It’s likely that the chest would become relatively stiff and the chest muscles would go into spasm. These muscles take a lot longer to recover than heart muscles so it would be very unlikely that your victim would be able to breathe again. For that reason, although the heart may well restart the victim may well die.

Why do some people blink more than others?


Why do some people blink more than others?

Most people blink once every two-to-ten seconds. Blinking can be triggered by dust or pollen, if you get hay fever in the summer like I do. It’s mainly controlled by nervous impulses from the brain. Everyone has a sort of blinking pacemaker in their brain and everyone’s is different. Everyone’s is set slightly differently.



This area of the brain is known as the chordate nucleus and it controls your blinking by sending impulses down the nervous system into the muscles around your eyelids. There are of course other things that can affect your blinking like fatigue and also some diseases like Parkinson’s and nerve disorders.



What’s quite interesting is that when we blink we don’t actually notice that we’re blinking because our brains filter out the signal. It’s the same as when you move your eyes around a room. Your brain cuts out the signal of when your eyes are moving so that you don’t get confused and feel like the world is spinning. It’s called corollary discharge.

If a mosquito bites someone with HIV and then goes and bites someone else will it pass on the disease?


If a mosquito bites someone with HIV and then goes and bites someone else will it pass on the disease?

Thankfully, no. Because otherwise Africa would have a much worse problem than it currently has where there are something like 4 million new cases of HIV every year. They’re thankfully not caused by mosquitoes. If they were we would all be in really serious trouble because it would be like malaria. The reason is really simple because we know that mosquitoes are very good at transmitting viruses, certainly things like dengue gets spread by mosquitoes and that’s a virus.

There’s a very good reason why this isn’t the case with HIV which is that HIV is a very specialist virus which has on its surface viral velcro, molecular docking stations that lock on to certain parts of cells, CD4+ cells which you only find in us, in humans. There’s related versions of HIV in chimpanzees (SIV) and they have their own specific cells that it locks onto. Because those specialist cells are only found in us HIV is a very fragile virus. It can’t survive in the mosquito’s intestine, it can’t latch onto cells in the mosquito, therefore the mosquito doesn’t get infected. Therefore the mosquito can’t amplify the dose from the person it bites. Therefore it can’t infect the next person because it can’t inject more viruses than it took in. HIV is very poor at infectivity. It’s actually very hard to catch, believe it or not. You can reassure everyone you’re not going to catch HIV from a bite.


Monday, December 7, 2009

How is oxygen made and recycled on the International Space Station?


How is oxygen made and recycled on the International Space Station?

The oxygen isn’t strictly recycled. The carbon dioxide that the humans breathe out is filtered out of the air with a molecular sieve then simply dumped overboard. The oxygen is created from the water that comes from the air and from the washbasins and from the loos. After that water is cleaned up it is electrolysed. An electric current is passed through it and it is separated into hydrogen and oxygen. The hydrogen is dumped overboard; the oxygen is fed into the cabin for the crew to breathe.

What happens in scientific terms in a reaction between acid rain and limestone?


What happens in scientific terms in a reaction between acid rain and limestone?

Limestone is mostly made up of the mineral calcium carbonate ( CaCO 3 ) this is not very soluble so the rocks don't dissolve very quickly. If you add an acid however you add Hydrogen Ions ( H+ ) which will react with the carbonate to form hydrogen carbonate HCO3- ions which are very soluble in water, and the limestone will dissolve. Or if there is more acid about the two Hydrogen ions will react with a carbonate to form H2CO3 which will decompose to form carbon dioxide CO2 and water H2O.

The acid can come from a variety of sources sulphur and nitrogen oxides released by burning fuels will form sulphuric and nitric acids, can carbon-dioxide can dissolve in water to form carbonic acid.

If your hair is red why does it go white? Does it change structure?


If your hair is red why does it go white? Does it change structure?

The process is very likely to be the same as any other hair colour. All you’re doing is losing from the hair the ability to add some colour. The colour is accounted for by different forms of melanin: the same hormone, the same chemical in the skin that makes you go brown. You just lose the ability to add that to the hair so you see the natural colour of the hair: the keratin and that’s the stuff which is white.


Why do we serve white wine when chilled and red wine at room temperature?


Why do we serve white wine when chilled and red wine at room temperature?

First of all, red and white wines have different chemical compositions that influence their sensory perception and their sensory traits. The aromatic white wines and these are things like Chenin Blanc, Gewurztraminer, some of the Rieslings, you serve them the coolest so it would be about 8°C. They have a relatively higher proportion of aldehydes and esters and terpenes that fill up the head space of the glass and at the lower temperature. So they will project their fruitiness which is a big part of the appreciation of those wines at a much lower temperature. The cooler temperature accentuates a bit of the acid and so, it creates a crispier, fresher kind of impression of the wine. If you do a Chardonnay-type wine or a wine in that style that is oaked, it can be served at a slightly higher temperature, so maybe 10°C, maybe 11°C. And the red wines, we have the phenolic compounds in the red wines, but with the polyphenols and the tannins, contribute to the structure in the mouth feel and that’s very much linked to the appreciation in a good quality of red wine. These components are better tasted at a slightly higher temperature. So if you chill the red wine, it’s not just that the flavour components don’t come out into the head space as well, but the tannins and the polyphenols feel much more astringent and harsher in the mouth and the acid is accentuated as well. If you serve a red wine that’s really warm, what you get then is the alcohol starts to dominate the head space in the glass and you get the perception of an alcoholic wine, and you don’t appreciate all the fruity components that are in the wine. So if we serve those at about 19°C, you get a much more pleasant overall balanced wine.