insight issue 1
DESCRIPTION
Insight Issue 1 draftTRANSCRIPT
Christ Redeemer Statue in Rio de Janeiro, Brazil, Press photo ©
KICKING OFF BRAZIL’s ECONOMY
Bitcoins page 06
FLIGHT MH370 PAGE 12
INNOVATION PAGE 14
Economics
SCIENCE
GEOGRAPHY
ENGINEERING
POLITICS
16th June 2014 £1.00 Issue 1
IN SIGHT
.....2 | Insight | Contents
ECONOMICSTHE CONTENTIOUS CENTRAL BANK WEAPON Anthony Zhang
KICKING OFF BRAZIL Vahesan Raman
BIITCOINS Arun Bhahi
THREATS TO CHINA’S ECONOMYShahvir Mogul
SCIENCETHE BIOCHEMISTRY OF MITOCHONDRIA Prajay Patel
THE CHEMISTRY OF SNOWFLAKES Prajay Patel
COULD SLEEP LOSS BE SHRINKING YOUR BRAIN? Khilan Shah
GRAPHANE: GRAPHENE’S BROTHER Shihaab Nawab
GEOGRAPHYTHE FLIGHT THAT HAS YET TO LAND Jonathan Gunaseelan
VIENNA: THE CITY OF DREAMS Hemang Hirani
ENGINEERINGDARE TO INNERVATE OR INNOVATE Alex Chinweze
A BETTER REACTION TO DISASTER Alex Chinweze
CONTENTS
3467
89
1011
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1415
Economics | Insight | 3.....
The harsh crises of 2008 hit the conventional cen-tral bank controls hard. It was a year later in 2009 when Mervyn King, the previous Bank of Eng-land governor, embarked on a 3 month, £75bn ‘quantitative easing’ (QE) Programme. Recently, Mark Carney, the current governor, announced the current quantitative easing stimulus, worth £375bn, was to be kept unchanged. But what does this actually mean?
People often regard quantitative easing as print-ing money. But rather than loading heaps of newly minted coins and notes, central banks use a more complicated process to inject money in the economy. Essentially, the Bank of England creates money out of thin air by crediting its own bank account- electronically- and uses this to purchase assets (usually government bonds) from banks and other financial institutions. Naturally this increase in the demand for bonds causes an upward pressure on prices- from P to P1, as shown below.
Coupled with this and the new fresh supply of money in their accounts, companies (who sold the bonds) will use the proceeds to invest in individu-als and companies in the form of loans. This carries the hope that they will offer lower interest rates with these loans, thereby increasing the money spent in the economy. Once the economy has recovered, the Bank of England sells the bonds it has bought and destroys the money it has created. This means there is no extra cash gener-ated in the long term.
A Total Success?Quantitative easing has not escaped criticism however. Should it lift economic growth, the potential for inflation to rise is high. Investors in bonds may anticipate this and begin selling bonds. The bonds will lose value; hence there are risks that interest rates may rise with the capability of surpassing inflation.
Inflation itself has also been a large concern. Quantitative easing runs the risk of rampant inflation due to the rapid increase in the money supply. This debatably is in return for confidence and growth, though many economists argue there is no proof to suggest that these benefits have been felt. The macroeconomic effects of the stim-ulus is simply not quantifiable.
Companies now also worry about their pension scheme deficits. The cost of paying pensions is calculated based on the assumption that all their assets are invested in bonds, so as the yield on bonds has dropped, these companies have to put more of their assets aside to generate the same level of pension income. BBC has most recently been forced to pay £750m into its pension scheme as it sees its pension deficit rocket to £2bn.
Nevertheless, quantitative easing has been the last gasp of hope in the Bank of England’s weap-onry, taking over where conventional interest rates have failed. It will still be disputed whether injecting money is advantageous (the creator, Richard Werner, certainly does not think so any-more), or injurious. Then again, as Mark Carney is still keeping the stimulus running, all evidence suggests he is confident that this weapon is a pow-erful one.
By Anthony Zhang
THE CONTENTIOUS CENTRAL BANK WEAPON
D
S
D1
Q
P
Q1
Q
P
P1
.....4 | Insight | Economics
KICKING OFF BRAZIL’S ECONOMY
The wait is over. The spiritual home of football is playing host to 32 teams from across the world all trying to become the next FIFA World Champions. The question all 199 million Bra-zilians are asking however, is what will happen to the econo-my after the World Cup: will it go on a match winning streak or will it go off the boil?
There have been many critics within Brazil regarding the staging of the World Cup followed two years later by the Olympics with the economy being in such a precarious situa-tion. Having previously experi-enced vast amounts of econom-ic growth to become the 6th largest economy in the world, as well as part of the coined BRICS countries (a term used to refer to the fast developing econo-mies of Brazil, Russia, India, China and South Africa), it now has the lowest projected growth of 4.2% for the next 10 years amongst these countries. Social unrest has been present in Brazil for almost a year and has overshadowed the build up to the World Cup. It started at the time of the Confederations Cup last year, usually seen as the dress rehearsal to the World Cup. Although there was suc-cess on the pitch last year as Brazil were crowned winners, there was not as much certainty amongst individuals for success for the country overall.
Although it may seem like a great outlay, the economy will
produce an extra R$142 billion (Brazilian Real) through invest-ment and employment to build the infrastructure. In addition, the infrastructure that is built will not just disappear but stay to benefit future productivity. The 12 host cities will benefit from expanded airports, improved transport systems and better telecommunication services. Although these upgrades were necessary, they hardly would have taken place simultaneously were it not for the World Cup. Increases in pro-ductivity as a result of this can shore up Brazil’s previously low productivity. The increased investment will mean that both the price and non-price compet-itiveness of Brazil’s exports will improve in the global market. In fact at the moment small and medium sized businesses con-tribute less than 1% of all of Bra-zil’s exports. Although there is scepticism over the benefits of tourism in the long term, previ-ous hosts of similar global events have enjoyed lasting benefits as people come back to see the places where memorable events occur such as people visiting the Bird’s Nest in Beijing where Usain Bolt broke sprinting world records.
However Brazil may have scored an own goal in the cities they have decided to use as hosts for the World Cup. 4 out of the 12 cities such as Manaus in the Amazon Rainforest do not even have a local football team. Consequently, the costs to
build the stadiums in these cities may not be recovered as the occasional music concert may not generate enough income to pay them off. They would become white elephants: not making any real money whilst also being too expensive to take down. There is also the opportunity cost of the 25 billion reals that is being spent on building stadiums which could have been used to invest in either schools or hospitals. The benefits of the global event may not be felt across the coun-try as, whilst the host cities will feel the benefit of improved cap-ital and infrastructure, it will not translate onto a national scale.
The World Cup will hopefully will be held without the social unrest which would detract from the spectacle. This will also be a crucial time for the Brazil-ian government as there are general elections not long after-wards in October. The only thing they can do is hope that the economy will improve after the game changer rather than succumb to a howler.
By Vahesan Raman
POPULATION: 196,655,014CURRENT LARGEST CITIES:1. Sao Paula- 11,244,3692. Rio de Janeiro- 6,323,0373. Salvador- 2,676,6064. Brasilia- 2,562,9635. Fortaleza- 2,447,409
Economics | Insight | 5.....
BRAZILIAN ECONOMY FACTFILE
81.3%
Live in an urban area
Unemployment Rate
6.2%
WHAT MAKES UPBRAZIL’S GDP?
67.2%27.4%
5.4%
Services Industry Agriculture
66%14%
20%
LABOUR FORCE BY OCCUPATION
PREPARING FOR THE WORLD CUPTRANSPORTATION-6200 miles of new train tracks-4460 miles of new or widened highways-Rapid transit system between Sao Paulo and Rio de Janeiro-The expansion of 12airports
VENUES-26% of total sportsvenues built from scratch-18 are already operatingand 8 will have majorrenovations done
JOBS-700,000 jobs createdin total-380,000 jobs created during the country’s preperation for the event-A skills development program will train more than 48,000 participantsin strategic skills for the World Cup
.....6 | Insight | Economics
“$22,500”. That would be the balance in your account if you had bought $1 worth of Bitcoins in July 2010 and sold it in November 2013.
Developed by Satoshi Nakamoto, the decentral-ised cryptocurrency has been considered as a giant leap in our financial markets, providing a completely new way for businesses to be run due to its online practicality. Managed without a cen-tral authority, the digital currency presents a solu-tion to recent problems with banks, global reces-sion and the Euro crisis, but is still in its beginning stages. Bitcoins, however, pose many risks includ-ing volatility and illegal market growth. A central authority is considered vital to manage and protect the currency, making decisions to change supply as well as interest rates to control economic policies, whilst verifying the authentici-ty of the money. However, in Bitcoin, the absence of a central authority means an alternative method is needed to manage transactions and ensure nobody can copy the e-currency. Thus, Bitcoin creators developed a system with public key encryption, where a digital certificate is used to identify account holders, keeping details secure.
However, this transparency enables illegal mar-kets to operate globally without detection. There are no accounts, email-addresses, or names associ-ated with each transaction, and instead each balance only has an address and its corresponding public-private key. The Silk Road, an online black market, exploited this weakness and used the Tor hidden service to hide their IP address, making it virtually impossible to track transactions to anyone. The FBI did eventually arrest the owner and closed the site, but you can be certain there
still exists black markets which exploit Bitcoins. The main advantage of Bitcoin is its relevance to the current digital world that we live in, with the proliferation of online ordering, money transfer and mobile applications. People often use PayPal to shop online, but this charges a fee per transac-tion meaning large transfers of money are usually too expensive. However, when using Bitcoins, money is transferred directly to and from accounts, occurring immediately with no cost, regardless of location or value. Currency-ex-change fees are also removed and there is no time or money wasted in the process. This is particular-ly beneficial in the current globalised market, as a large proportion of products are imported.
Although Bitcoin is an evolution of currency, its freedom from central bank regulation means gov-ernments cannot interfere to maintain policies, which may unintentionally damage the currency. Quantitative easing, the injection of money supply, is an example which increases economic growth, but reduces our currency’s value. Howev-er, these policies constitute our economy and without that ability, our economies will fail. So what does the rise of the Bitcoin imply for the future of central banking? Currently the answer is ‘not much’; however with a central authority, Bitcoins could transform future online markets and become the “complementary, online currency of the future”.
By Arun Bhahi
BITCOINS
Economics | Insight | 7.....
China has experienced signifi-cant economic growth in the last few decades resulting in it growing to become the world’s second largest economy. But what are the threats to growth? Why isn’t China called a devel-oped country yet? What is shadow banking and how is it a threat to China? What are the potential consequences of the economy being the ‘Factory of the world’ and selling so many goods to other countries?
According to BBC News, “shadow banking” refers to ‘trusts, leasing and insurance companies - or any other non-bank financial institution - which perform banking func-tions without a banking licence’. In other words, it is the name for the unregulated, unofficial banking system which operates on a huge scale in China. Busi-nesses and even local govern-ments have been borrowing from loan sharks to finance their short term debts since it is quicker than using an official bank. However, in incidents where a shadow bank collapses i.e. if borrowers fail to repay, people could potentially lose all their savings and investors make massive losses.
Many shadow banks in the form of ‘Trusts’ have been set up as off-balance sheet subsidi-aries of commercial banks so any losses made will directly affect banks’ profits and opera-tions, hence causing major problems in the official banking system. The main fear of the central government and econo-mists is that the financial system of China can come crashing down like it did in 2008 if the system is left to operate under free market con-ditions (i.e. with no government intervention and lax regula-tions).
Poverty and inequality are also considered threats to China’s growth since they are the main reasons why China has not been classified as a developed country, despite impressive growth rates. Whilst Beijing and Shanghai are considered devel-oped cities and trade hubs of the world, people in some parts of rural China are dirt poor and the infrastructure of many villages is extremely poor, to the extent that paved roads, access to good education or decent health care are still sought after in some provinces. China has relied so much on
exports to fuel growth in its economy in the last few decades to the extent that it is known as the ‘Factory of the world’. This dependence on exports is thought to be one of the main reasons for the slowdown it has experienced in recent years since European countries have experienced recessions and crises, limiting their purchasing power and their ability to import goods from China. This has meant that exports to Euro-pean countries and the US have seen a significant decline due to the economic crises these coun-tries have been facing since 2008. China’s export led growth model meant that a fall in exports caused a large slow-down in GDP growth, which is now 7.7% as opposed to 10% in 2007.
To sum it all up, China may be classed as a world superpower but there are significant obsta-cles for growth in the country, which could severely hamper its future prospects if not dealt with properly by its policy makers.
By Shahvir Mogul
THREATS TO CHINA’S ECONOMY
.....8 | Insight | Science
The success and development of most cells is based on two powerful, mutually supportive orga-nelles: the mitochondria, which extract energy from sources such as glucose, and chloroplasts, which capture light energy for storage as glucose. Both of these cells have an endosymbiotic origin. Endosymbiotic theory proposes that these orga-nelles were once prokaryotic cells, living inside larger host cells. The engulfed cells relied on the environment of the host cell, whilst the host cell relied on the prokaryote for energy production, in turn this led to the development of mitochondria.
Mitochondria are semi-independent within cells, with their own DNA. Mitochondrial DNA (mtDNA) is described as ‘singular double stranded circular supercoiled’ DNA molecules which are maternally inherited and consist of small codes for few proteins. The mtDNA originated from the circular genomes of the bacteria engulfed by the early ancestors of eukaryotes. Replication is con-trolled in order to make sure that daughter cells have the same amount of mitochondria as their parents.
Synthesis of Adenosine Tri-PhosphateMitochondria have two membranes: an outer membrane completely surrounding the inner membrane, with an inter-membrane space in between. The outer membrane has many protein pores, making it permeable to ions and larger mol-ecules, whilst the inner membrane is more restric-tive and more involved in protein synthesis. This membrane surrounds the mitochondrial matrix, where ATP synthesis takes place.
A proton gradient is generated and is used to drive ATP synthesis. The orange, green and pink struc-tures embedded in the inner membrane represent the proteins of the electron transport chain. Two electrons pass along this chain (red arrow), pass-ing along the three proteins stimulating the trans-port of a proton (H+) from the matrix to the inter-membrane space. The two electrons are used for the conversion of oxygen to water (Reduction).
The build-up of transported protons in the inter-membrane space causes a gradient that is used by ATP synthase to produce ATP. ATP synthase is shown in blue, spanning the inner membrane. A black arrow shows protons (H+) moving from the intermembrane space, through ATP synthase, and out into the mitochondrial matrix. As this happens, the enzymatic activity of ATP synthase synthesizes Adenosine Triphosphate from Aden-osine Diphosphate.
The Overall Reaction Is: ADP3- + HPO
42- + H+ + nH+
out ATP4- + H
2O + nH+
in
The catalysing process begins with a proton from the intermembrane space entering the ATP Syn-thase complex, followed by another proton leav-ing the ATP Synthase complex exiting into the matrix space. This is followed by the rotation of the complex, in order to prepare for the next set of protons. This rotation produces the energy required for ATP synthesis.
The mitochondria’s’ main function is the produc-tion of energy in the form of ATP therefore mito-chondrial cells multiply when a cells energy requirement increases. As a result of this cells which need more energy such as heart, liver and muscle cells have a greater amount of mitochon-dria than cells with a lower energy requirement.
By Prajay Patel
THE BIOCHEMISTRY OF MITOCHONDRIA
Science | Insight | 9.....
How do Snowflakes Form?Snowflakes form inside clouds, which are made up of water droplets, water vapour and vari-ous impurities. When a cloud’s temperature decreases the water molecules crystallise around these impurities, form-ing a hexagonal structure. These hexagonal structures are able to stack into sheets creating hexagonal prisms.
Once the prism grows, branching causes the snow-flake to develop leg like structures from the hexagon’s corners. Due to the 6 sided arrangements of water molecules in snowflakes, they have 6-fold symme-try due to this pro-cess of crystallisa-tion. The hydrogen bonding between water molecules is responsible for the hexagonal shape: the angle between the hydrogen atoms in H2O is 104.5 degrees and hence when hydro-gen bonding holds the water molecules together in the snow-flake structure the resultant shape is hexagonal.
The growth of a snow crystal starts when some molecules nucleate around a tiny impurity. Changes in local conditions can subsequently alter the shape and size of the crystal as it forms. The snowflakes that fall are between 0.2mm and 5mm
wide. Larger snowflakes break up in the wind due to their fragility and smaller snowflakes are not heavy enough to fall, so they remain in the atmosphere.
Snowflakes form when 2 condi-tions are met: Supersaturation and SupercoolingSuper-saturation: The existence of extra water vapour in the air. This normally occurs when
there is a decline in tempera-ture, which results in more water vapour in the air than usual. The extra water vapour crystallises into water droplets or ice.Super Cooling: The existence of water under 0oC. Water does not freeze at 0oC due to the existence of Brownian motion (Tap water freezes at 0oC due to impurities whilst pure water freezes at -42oC)The basic shape of a snowflake crystal is dependent on the tem-perature at which it is formed: lower temperatures produce flat and plate-like structures, whilst at higher temperatures longer,
more needle-like crystals are formed.
No snowflakes are exactly alikeThere are more than 100 features that can be identified on a snowflake giving 10158 possible snowflake configura-tions. These will be affected by the slightest temperature and humidity differences. As a result of this, no two snowflakes
are exactly identical, when it comes down to the precise number of water molecules, spin of electrons and the isotopic abundance of hydrogen and oxygen within them. Whilst it is entirely possible for two snowflakes to look exactly alike, the amount of
factors that contribute to the structure of a single snowflake means that it is highly unlikely to have any two which are iden-tical. If the snowflake is formed under consistent conditions, i.e. constant temperature and humidity it may be symmetri-cal.
Why is Snow White?Snowflakes have many light-re-flecting surfaces and scatter light into all of its separate con-stituent colours, meaning that unlike water and ice we per-ceive snow to be white.
By Prajay Patel
THE CHEMISTRY OF SNOWFLAKES
Microscopic dust particle in a cloud
Water molecules condense onto the surface of the particle, and then onto each other in a hexagonal lattice formation
The hexagonal plate grows into a prism. Different facets grow at difference rates,depending on the conditions
Branching instabilities causes arms to grow on the corners.These grow faster than the rest of the crystal and become more pronounced
The snow crystal is then blown into a new set of conditions which favour plate growth again. The variability of conditions experienced by each crystal accounts for the complexity of forms seen
.....10 | Insight | Science
Everyone has heard the perpetual rhetoric from health experts that sleep is essential, and that you should get at least eight hours of it every day. However new research indicates that sleep deprivation can lead to permanent lasting damage.You may often pull all-nighters to catch up on that last bit of homework or revision before an exam, but long-term sleep depri-vation limits the brain’s capacity.
There is a widely held belief that you can catch up on lost sleep during the weekend or through naps during the day. But according to Sigrid Veasey from the University of Pennsylvania this does not appear to be the case.Mice were put on a sleep schedule to mimic that of shift workers. This involved constantly waking them for different peri-
ods of time, and then letting them nap to make up for this. The scientists then examined nerve cells within the brain, par-ticularly the locus coeruleus. Large amounts of brain damage were found in the mice, with the mice losing 25% of the neu-rons in this particular bundle of nerve cells. What is more worry-ing is that the locus coeruleus is involved with alertness and cog-nitive function and produces noradrena-line, which triggers the ‘fight or flight’ response.
When the mice started to lose sleep, the nerve cells produced sirtuin type 3, a protein thought to protect and energise the nerve cells. But after a few days of constant sleep deprivation this pro-duction stopped hap-pening, with the cells dying at an increased rate.This is the first time that evidence has been found that long term sleep deprivation can lead to a loss of brain cells. "No one really thought that the brain could be irreversibly injured from sleep loss," Veasey said.
However this study was only done on mice and the effect of sleep deprivation may be different in humans. The next step is to ana-lyse the brains of shift workers after death, to look for any evidence of brain cell loss in humans. There is still hope that new drugs could be developed to increasing the amount of sirtuin type 3, there-by preventing the loss of brain cells. So the next time you think of pulling an all-nighter beware: it could be doing more damage to you than you think.
By Khilan Shah
COULD SLEEP LOSS BE SHRINKING YOUR BRAIN?
Science | Insight | 11.....
Overall Reaction:ADP3- + HPO
42- + H+ + nH+
out ⇌ ATP4- + H
2O + nH+
in
Many of you have probably heard of the material Graphene, the material made of carbon that has been hailed as a ‘wonder material’ by some due to its various properties. For those who don’t know what it is, I’ll briefly explain: Graphene is an allotrope of carbon. Allo-tropes are different physical forms of an element, meaning that while they may all contain the same element, in this case carbon, they have different structures. Other allotropes of carbon include Diamond and Graphite. Graphene has a very similar structure to graphite, meaning it is comprised of carbon in a honeycomb-like structure, but unlike graphite, graphene is only a single layer thick. This makes it an extremely light-weight, but strong and flexible material, as it is held together purely by covalent bonds. As well as this, it has an extremely low resistivity, as its electrons can move very freely through the structure, making it one of the best electrical conductors at room temperature known to man.
However graphenes ability to
conduct electricity can actually pose a problem: it conducts elec-tricity almost too well. This means it is extremely difficult to make components such as tran-sistors out of graphene as once it starts conducting, it is virtual-ly impossible to ‘switch off’ meaning they can’t really be used in circuits as of yet. In the search for a solution to this problem, scientists managed to make another carbon based material: graphane.
Graphane is a material which has exactly the same structure as graphene, except both sides of the carbon sheet have had hydrogen added to them (hydro-genation). These hydrogen atoms bond to the free electrons in the graphene sheet, prevent-ing them from moving freely throughout the structure. This means that while it loses the conductivity that graphene has, it retains the strength and light-weight nature of graphene.
This opens up a range of poten-tial applications for a material like this. A very important one is its potential use in graphene based circuits. In circuits, graphene is used in very small strips, made by taking a sheet of
graphene and then burning off large amounts of excess graphene until they are in small strips. Graphane itself also has poten-tial for conducting electricity. Researchers at Rice University, Texas have found that by strate-gically removing hydrogen atoms from the graphane sheet it gains semi conductive proper-ties which are far more useful for circuits and semiconductors than graphene as it has fewer electrons which are free to move.
Aside from its conductivity, scientists are also starting to look at how its strength and small mass can be used, as graphane is said to be as much as 1000 times stronger than steel. There is so much more to learn about graphane before we can widely use it, so even if more research is going into it, will we see it become widely used in our lifetimes? Only time will tell.
By Shihaab Nawab
GRAPHANE: GRAPHENE’S BROTHER
.....12 | Insight | Geography
It’s been more than two months since the disap-pearance of the Malaysian Airlines Flight, and the location of the flight MH370 has yet to be discov-ered. The Malaysian Airlines Flight however, isn’t off the radar, metaphorically speaking, as far as the general public and major investigation teams are concerned. Global search efforts are taking place whilst friends and families of the 239 pas-sengers all live through an agonising wait.
The flight that left Kuala Lumpur, Malaysia, headed towards Beijing was broadcasted as ‘miss-ing’ at 02:40 local time on Saturday 8th March 2014. Since then, regardless of the overwhelming search efforts conducted by the authorities, the case doesn’t seem like it’s coming to a close any-time soon.
Theories as to what actually happened1. The Pilots are Heroes! A common theory is that the flight was involved in some sort of a struggle, possibly to do with hijackers. At this point the pilots could have chosen to fly at 45000ft before suddenly dropping low in altitude, purely to fly aggressively and resist a hijack by disorientating the hijackers.
2. The Pilots are Villains! On the other end of the spectrum, it is also widely believed that the staff on board the flight, particularly the pilots, were behind the planning of the biggest “aviation scan-dal”. The transponder on the plane, which com-municates with ground radar, was shut down as the aircraft crossed into Vietnamese airspace. Nonetheless, during the MH370’s next communi-cation with ATC (Air Traffic Control), the co-pilot was reported to have said “All right, good night”,
evidently misleading all ground staff and acting oblivious to the matter of the transponder. This has led to many raised eyebrows with regards to the fate of the aircraft.
Passengers on Flight MH370 and their familiesThere were 227 passengers in total aboard the craft, including 153 Chinese and 38 Malaysians. Among the passengers is Cambridge University student Yuchen Li, 27, who had recently finished his doctoral engineering degree and was heading back to Beijing to see his girlfriend. “See u in Beijing” was the caption of the last picture he shared on a social networking site before depart-ing.
Giving a helping handThe present day may be considered to be a time of a global recession- but this didn’t stop many coun-tries joining forces and spending billions in carry-ing out the search operation for the Malaysian flight. Evidently, the global response of this inci-dent is immense, showing humanity at its best. 26 countries are working together to find the missing flight MH370 over an area covering 1.5% of the Earth’s Surface and 11% of the Indian Ocean.
For now, the theories as to what happened exist, but as we all know, theories are rarely correct in practical situations. As the biggest mystery in modern aviation remains unsolved, will the coop-eration of global nations pull together and prevail, to create a fairy tale ending for the story that’s captivated the entire world? Flight MH370 should be landing soon…very soon.
By Jonathan Gunaseelan
THE FLIGHT THAT HAS YET TO LAND
Geography | Insight | 13.....
We are always fed up of our boring, monoto-nous, stressful lifestyles here in the UK and constantly dream of moving to another ideal place in the world. Well, if this is the scenario you’re in, look no further, Vienna in Austria clearly is the right city for you.
For the fifth consecu-tive year, Vienna was ranked as the number one city with the high-est quality of life in the world, surpassing cities in Switzerland, Den-mark, U.S and U.A.E. The title was bestowed by Mercer, a global consulting firm, and was based on a combi-nation of traits such as stability, rising living standards, and advanced city infra-structures. Undoubt-edly it is definitely something to consider as not only does Vienna boast a vibrant cultural scene, compre-hensive health care
and relatively cheap housing, there is also much more to the city that many do not know about. The city literally has everything; for the youth there is a thriv-ing music and nightlife culture beneath the subway between the Thaliastrasse and N u s s d o r f e r s t r a s s e stations, with famous clubs like Chelsea and the Rhiz bar. For older residents, Vienna boasts a range of archi-tecture, with pieces from the middle-ages all the way to the Baroque period. There are also museums, markets, world-re-nowned coffee shops and various other historic features which have led to the city being designated as a UNESCO World Herit-age Site. Therefore, socially the city is attractive to those of all ages, and it is therefore not hard to understand why it has been labelled as the city with
the highest standard of living. However, it’s not only due to social reasons that the city has clinched first place, but economically the city is also highly appealing. Often referred to as the ‘city of dreams’, Vienna has the fourth highest GDP per capita rate in the world at €36,640, with the cost of living also being relatively cheap in comparison to other European countries. With fantastic trans-port links including those of the world renowned U-Bahn, you can get around the city for under €1.
This is not all: one of the most enticing aspects of the city is that it enables you to get a mix of both city-life and natural surroundings. With 45.6% of the city being green space and just over 5.1% being bodies of water, there is a per-fect balance between
the hectic lifestyle in the urban parts of the city, and the calm and serene environment towards the periphery.
However, although all this seems to be bril-liant, Vienna’s popula-tion is growing. Although steadily growing at a rate of just over 1.2% per year, this means that the pres-sure on the city is ever increasing and as people are realising that it is the best place to live in; spots are being taken rapidly which could soon mean that by the time we look to move, it may be too late. Neverthe-less, by the time we are to move, there may be another city that will take the title. There-fore, if you remain optimistic, perhaps one day your dreams of living in your utopic city may come true.
By Hemang Hirani
VIENNA: THE CITY OF DREAMS
.....14 | Insight | Engineering
In a world where so much time is spent in virtual reality, it is often difficult to stop and appreciate having functional limbs. Those unfortunate enough to have lost their limbs are reliant on the constant evolu-tion of prosthetic limbs.
There are two main forms of prostheses used in current biomedical approaches to amputations: Body-powered and Myoelectric.
Body-powered limbs are controlled by bike-like cables con-nected to the healthier alternative body part which is moved in a certain way in order to re-create motion. The technology available to engineers allows the limbs to weigh one half to a third of a myoelec-tric limb.
Myoelectric limbs work by “listening” to
the electrical signals made by the remaining muscles in the arms and moving the pros-thetic limb as naturally as possible. Their weight comes from the motors and batteries inside them.
This week, Todd Kuiken, a Psychiatrist and Engineer at the Rehabilitation Institute of Chicago, revealed a project, which if suc-cessful, would produce prosthetic limbs designed to facilitate sensory capacities in bionic limbs. The con-cept behind this is called targeted re-in-nervation.When a limb is ampu-tated, the neural signals will still exist. The goal, therefore, is to amplify the signal that the brain is send-ing to these sites so that they can be recorded on the skin surface:; the amplifier being muscles. Let us consider the arm. It is connected to
four main nerves from the brain: the Median, Musculocutaneous, Radial and Ulnar Nerve. If some chest nerves were removed and these four allowed to grow into them, the chest could relay movement intended for the hands.
This allowed for more intuitive control over the artificial limbs which responded to appropriate muscle movements. This was evident in more fluid and faster movement in the prosthetic limbs when tested on basic hand functions.
This unexpected gift has certainly displayed promise in the desire to give the handicapped the chance to feel normal again.
By Alex Chinweze
DARE TO INNERVATE OR INNOVATE
Engineering | Insight | 15.....
From a coffee cup to a four bed shelter, this device is proof that Engineers are inspired to inno-vate by their surroundings.
We are all aware of the destruc-tion Hurricane Katrina caused and the millions subsequently displaced out of homelessness. We are all also aware of the poor rehabilitation efforts carried out by the US govern-ment. Driven to solve a prob-lem, Michael McDaniel designed the Exo housing system. The cheap, lightweight, easy to produce, recyclable, reusable Exo disaster relief shelter by
Reaction is to become active in emergency aid following a natu-ral catastrophe. Each unit pro-vides 80 square feet of space and four single beds. It also con-tains portable generators that power four power outlets, a weather radio, solid-state LED lighting and a Nest-like AC system.
There are some interesting pieces of technology that feature in this design. For exam-ple, each system contains an imitation of the Nest AC system that learns your temperature preferences and adjusts accord-ingly. This status is relayed to a
central populous app for easy maintenance of the systems. The structure of the design is not overly complex, but its implications could be profound. From disaster aid to housing efforts in Africa and other LEDCs all over the world, the possibilities are endless. The true brilliance, however, comes from its humble conception; inspired by the design of a Styrofoam coffee cup.Ideas are omnipresent, but doing something with them requires the ingenuity of an engineer.
By Alex Chinweze
A BETTER REACTION TO DISASTER
ANOTHER ARTICLE GOES HERE
From a coffee cup to a four bed shelter, this device is proof that Engineers are inspired to inno-vate by their surroundings.
We are all aware of the destruc-tion Hurricane Katrina caused and the millions subsequently displaced out of homelessness. We are all also aware of the poor rehabilitation efforts carried out by the US govern-ment. Driven to solve a prob-lem, Michael McDaniel designed the Exo housing
The cheap, lightweight, easy to produce, recyclable, reusable Exo disaster relief shelter by Reaction is to become active in emergency aid following a natu-ral catastrophe. Each unit pro-vides 80 square feet of space and four single beds. It also con-tains portable generators that power four power outlets, a weather radio, solid-state LED lighting and a Nest-like AC system.
There are some interesting
pieces of technology that feature in this design. For exam-ple, each system contains an imitation of the Nest AC system that learns your temperature preferences and adjusts accord-ingly. This status is relayed to a central populous app for easy maintenance of the systems. The structure of the design is not overly complex, but its implications could inspired by the design of a Styrofoam coffee cup.
16th June 2014 £1.00 Issue 1
IN SIGHT