My endorse prophecies
1. Mighty shaking of the earth, heavens, and the spirituality of the church
2. Hosea Prophecy will Increase
3. A world leader will die changing things politically somewhere in the world
4. Russia will fight back the economic sanctions
5. ISIS will grow stronger in Middle East and around the world
6. Pope Francis will shock the world
7. Revival breaking out somewhere
8. Christian persecution will be as bad or worse
9. Illuminati will become bolder
10. Devastating earthquakes
11. Financial Distress among nations, especially in the west
12. Israel will defend it’s borders
13. More deadly diseases and plagues will break out on earth
14. Extreme weather will intenisify
15. Blood Moons / Blood Water / Blood Shed
16. us economic collapse
19. Lithuania joins the Eurozone
20. The Eurasian Union is formed
21. The first solar aircraft to circumnavigate the globe
22. Expo 2015 is held in Milan, Italy
23. The Large Hadron Collider reaches its maximum operating power
24. The world’s first fully sustainable, zero-carbon, zero-waste city
25. The first self-regulating artificial heart
26. A new generation of hi-tech supercarriers
27. The United States and South Korea dissolve the Combined Forces Command
28. The first large-scale solar updraft towers are operational
29. Queen Elizabeth II is the longest reigning monarch in British history
30. Personal biometric scanners for online banking
31. DDR4 memory reaches the home PC market
32. Windows 10 is released by Microsoft
33. The Archival Disc format is launched
34. The Carteret Islands are abandoned
35. The Dawn probe arrives at Ceres
35. The New Horizons probe arrives at Pluto
37. Electric car ownership reaches 1 million worldwide
38. Trucks with emergency braking systems are mandatory in Europe
39. The deadline for the Millennium Development Goals
Global economic recovery remains slow
Despite indications of recovery, the global economy remains in a fragile state. While growth is strongest in developing countries, it is still slower than during the pre-crisis period. A cautious attitude and ongoing aversion to risk mean that business confidence is tepid – especially in the EU, which has borne the brunt of this disruption.* There is continued political and social unrest in the southern European countries of Portugal, Italy, Greece and Spain, where debt continues to spiral.*
After reaching a plateau in 2008, global trade is showing improvement now, but is still trending at or below the average for the previous few decades. Unemployment remains high in Europe (12%), which consumes one-third of the world’s traded goods* and where austerity measures have persisted.* Although it is undertaking reforms like the Single Supervisory Mechanism,* Europe’s banking system has yet to be fully repaired.
The US is seeing faster growth than Europe, but remains in a fiscal deadlock over its debt ceiling, with periodic brinkmanship between Democrats and Republicans,* now more polarised than ever before.* Although the annual budget deficit has fallen significantly,* it will soon begin rising again* – due to pressures of an aging population, rising healthcare costs, expansion of federal subsidies for health insurance, and growing interest payments on national debt, the latter still alarmingly high at over 70% of GDP and set to reach 100% by the 2030s.*
China’s annual growth rate, while high compared to most countries, has been slowing in recent years* – due to a combination of local government debt, environmental issues, overcapacity and structural imbalances.* Demographic challenges have emerged from its aging population and declining workforce. The resulting labour shortages are driving up wages, reducing the competitiveness of its exports.* This demographic trend is even more of a problem for neighbouring Japan.*
Emerging OECD members that are faring much better include Chile, Israel, Mexico, South Korea and Turkey.* Overall, the global economy is recovering, but frustratingly slowly compared to previous such crises. Some of the most rapidly growing industries now include agriculture,* alternative energy,* biotechnology,*computer systems design, e-commerce, healthcare, mining* and scientific/technical consulting.*
Personal genome sequencing enters the mainstream
The use of bioinformatics in healthcare is growing exponentially during this time, thanks in large part to the falling cost of genome sequencing. This is creating a new generation of personalised diagnosis and treatments that can be specifically tailored to an individual’s own DNA.*
After the Human Genome Project was finished in 2003, its potential for public use began to be realised. It had taken nearly 15 years and billions of dollars to identify and map all 3.3 billion base pairs in the human genome. However, the methods used to achieve this goal were improving at a rate even faster than Moore’s Law in computer chips.* From 2008, the cost per genome went into freefall.
Among the early adopters was 23andMe, a company which offered partial genome sequencing to customers. Despite a slowdown of cost reductions in the early 2010s,* along with regulatory hurdles,* this company along with a range of others entering the market had already opened the floodgates. In the second half of the 2010s, average costs for whole genome sequencing would continue to fall* – reaching less than $1000** – while even greater advances were made in the portability* of machines for analysing samples. Thanks to nanopores and other novel technology,* these were now becoming so compact and fast that it was possible to get results from a handheld device in a matter of hours, at low cost.
By the end of this decade, these genome sequencers have a wide range of practical applications. They can be used at crime scenes, for example, to analyse biological evidence without having to return to the laboratory, saving time and money. Foreign aid workers in developing nations can identify viruses and verify water quality. Food inspectors can check for harmful pathogens in restaurants. Wildlife biologists can study genes in the field.
But perhaps the most widespread use of genome sequencing is now among the general public, who can utilise it for a mere fraction of the cost in the previous decade. Just as the Internet seemed to appear out of nowhere during the mid-1990s, personalised genomics is now entering the mainstream. Its popularity stems from the health benefits and medical insights it offers: after the base pairs are sequenced, an individual’s genotype can be cross-referenced with a database of published literature to determine the likelihood of trait expression and disease risk later in life. This allows them to prepare years or even decades in advance and to seek treatment or advice at a much earlier stage.* By 2020, tens of millions of human genomes have been sequenced in countries around the world. At the same time, however, concerns are being raised over privacy of information and the potential for “genetic discrimination”, as well as the psychological impact of test results.
Five-year survival rates for thyroid cancer are approaching 100%
The thyroid is one of the largest endocrine glands. Found in the neck, it controls how quickly the body uses energy, makes proteins and controls how sensitive the body is to other hormones. It does so by producing thyroid hormones which regulate metabolism and affect the growth and rate of function of many other systems in the body.
Worldwide, an estimated 213,000 people were diagnosed with thyroid cancer in 2008. More than a quarter of cases occurred in the US. However, treatments already existed that offered an excellent prognosis. In addition to surgery (which included thyroidectomy, lobectomy and tracheostomy), numerous drugs were being developed that improved the outlook for sufferers still further. In the second half of the 2010s, five-year survival rates are approaching 100% in much of the developed world.**
Virtual reality makes a comeback
Exponential improvements in processing power (doubling every 18 months) are enabling the creation of highly lifelike graphics and 3D environments. At the same time, faster broadband is opening up new frontiers in cyberspace, allowing the development of Web 3.0 – the next generation of Internet. This is being combined with developments in on-person hardware, creating renewed interest in virtual reality.* Having been something of a gimmick in the 1980s, it is now becoming a serious tool for business, leisure, education and training. Much of the content in these 3D environments is user-generated, with online communities for sharing and exchanging virtual objects, buildings, avatars, etc. Among the hardware configurations to emerge is a circular treadmill-like interface, allowing players to move freely and naturally in all directions.*
Lithuania joins the Eurozone
On 1st January 2015, Lithuania officially adopts the euro as its currency, replacing the litas and becoming the 19th Eurozone country. The euro had previously been expected to replace the litas in 2007, but the economic crisis and persistent high inflation – reaching 11% in October 2008, well above the acceptable limit of 4.2% – delayed Lithuania’s adoption. In July 2014, the Council of the European Union agreed that Lithuania met its entry criteria and would be allowed to adopt the euro as its currency.
The Eurasian Union is formed
The Eurasian Union (EAU) is a political and economic union consisting of Russia, Belarus, Kazakhstan, Armenia and Kyrgyzstan. It creates a single economic market of 171 million people and a gross domestic product of US$3 trillion. The idea, based on the EU’s integration, was brought to attention in October 2011 by then-Prime Minister of Russia, Vladimir Putin, but was first proposed as a concept by the President of Kazakhstan, Nursultan Nazarbayev, during a 1994 speech at a Moscow university.
In November 2011, the presidents of Belarus, Kazakhstan and Russia agreed on a target of establishing the EAU by 2015. The agreement included a roadmap for future integration and established the Eurasian Commission (modelled on the European Commission) and the Eurasian Economic Space, which started work on 1st January 2012. A treaty to enlarge the group to include Armenia was signed in October 2014 and Kyrgyzstan followed in December 2014, with all five members officially establishing the Union in January 2015.
It was speculated that future expansion of the Union might allow membership for other countries with close historical or cultural ties – such as Finland, Hungary, the Czech Republic, Bulgaria, China and Mongolia, incorporating them into a common state body with Russian as the common language of communication and economic cooperation. According to Vladimir Putin, the Eurasian Union would build upon the “best values of the Soviet Union”. However, critics expressed some concern at this “re-Sovietization” of Russia and Central Asia. The United States opposed the integration effort on human rights grounds.*
The first solar aircraft to circumnavigate the globe
Solar Impulse is a Swiss long-range solar-powered aircraft project, led by Swiss psychiatrist and aeronaut Bertrand Piccard (who co-piloted the first balloon to circle the world non-stop) and Swiss businessman André Borschberg. In 2015, they aim to achieve the first circumnavigation of the Earth by a piloted fixed-wing aircraft using only solar power.
An earlier prototype had performed its first test flight in 2009, and demonstrated 26 hours of continuous flying in 2010. The team completed successful solar-powered flights from Switzerland to Spain and Morocco in 2012, and conducted a multi-stage flight across the USA in 2013.
Building on the experience of this craft, a larger follow-on design (Solar Impulse 2) was planned to make a circumnavigation of the globe. This flight was initially planned for 2014, but following a structural failure of the aircraft’s main spar during static testing, it was rescheduled. The mission takes place over a period of five months from the beginning of March to the end of July 2015, using zero fuel to cover a distance of 35,000 km (22,000 miles).*
Solar Impulse has the wingspan of a Boeing 747, but weighs just 2,300 kg (5,070 lb). It uses 17,000 solar cells to charge lithium batteries in daytime, allowing it to fly at night with virtually unlimited autonomy. Its maximum speed is 143 km/h (88 mph) and it features environmental support systems for cruising at an altitude of 12,000 metres (39,000 ft).
Expo 2015 is held in Milan, Italy
The Universal Exposition is held in Milan this year, the first time the city has hosted the event since 1906. The main theme of the exposition is the future availability of food and water supplies and the state of nutrition and health in the years to come. New technology is on display with the aim of reducing poverty and famine around the world, as well as the spread of infectious diseases. A working prototype of a vertical farm is also presented as an alternative to traditional agricultural methods. The event is a catalyst for talks among concerned parties such as farmers, non-profit organisations, humanitarian workers and environmentalists, initiating new movements for change. More than 100 nations from around the world participate in the Expo, which runs from 1st May until 31st October. By the time it finishes, many millions of people have visited.*
The Large Hadron Collider reaches its maximum operating power
The Large Hadron Collider (LHC) is the world’s largest and highest-energy particle accelerator. By smashing together sub-atomic particles at close to the speed of light, it aims to recreate the conditions that existed just a fraction of a second after the birth of the universe. In doing so, it is expected to address some of the most fundamental questions in physics.
The LHC lies in a tunnel 27 kilometres (17 mi) in circumference, as much as 175 metres (574 ft) beneath the Franco-Swiss border near Geneva, Switzerland. This synchrotron is designed to collide opposing particle beams of either protons at an energy of 7 tera-electronvolts (7 TeV) per particle, or lead nuclei at 574 TeV per nucleus. The term “hadron” refers to particles composed of quarks.
The machine was built by the European Organisation for Nuclear Research (CERN) with the intention of testing various predictions of high-energy physics, including the existence of the hypothesised Higgs boson, and of the large family of new particles predicted by supersymmetry. It was built in collaboration with over 10,000 scientists and engineers from over 100 countries, as well as hundreds of universities and laboratories.
In September 2008, the proton beams were successfully circulated in the main ring of the LHC for the first time – but nine days later its operations were halted due to a serious malfunction. In November 2009, they were successfully circulated again, the first recorded proton-proton collisions occurring three days later at the injection energy of 0.45 TeV per beam. After the 2009 winter shutdown, the LHC was restarted and the beam was ramped up to half power, 3.5 TeV per beam (i.e. half its designed energy). In March 2010, the first planned collisions took place between two 3.5 TeV beams – a new world record for the highest-energy particle collisions. The LHC continues to operate at half power until 2015, when it reaches maximum capacity of 7 TeV.*
Initially, the experiment sparked fear among the public that the collisions might produce a doomsday scenario, involving microscopic black holes or hypothetical particles known as strangelets. Two CERN-commissioned safety reviews examined these concerns and concluded that the experiments at the LHC presented no danger and that there was no cause for concern, a conclusion endorsed by the American Physical Society. The LHC would be followed by even bigger particle accelerators in 2028 and 2035.
The world’s first fully sustainable, zero-carbon, zero-waste city
The first phase of Masdar City – a $22 billion eco-project – is completed in 2015.* This huge development is located outside of Abu Dhabi in the United Arab Emirates. Entirely pre-planned and self-contained, it is the world’s first carbon neutral, zero waste and fully sustainable city. A multitude of green technologies are utilised – including the largest solar power plant in the Middle East, rooftop photovoltaics, wind farms, geothermal sources and a hydrogen power plant. The city’s water needs are fulfilled by a solar-powered desalination plant. There are extensive recycling systems too.
Masdar City will initially be home to around 7,000 residents and 15,000 commuters. Its commercial sector is primarily concerned with the manufacture of environmentally-friendly products. Automobiles are banned from the city, residents instead using integrated forms of mass transit and personal rapid transit.* It is connected to the rest of Abu Dhabi through rail and existing roadways. It contains a university, an institute of science and technology and hosts the headquarters of the International Renewable Energy Agency (IRENA).
Masdar City will undergo major expansion. The final phase of the project will be completed by 2025, covering an area of 6 sq km (2.3 sq mi). By then, it will contain over 50,000 residents and 1,500 businesses.*
The first self-regulating artificial heart
In 2013, French Professor Alain Carpentier engineered the first self-regulating artificial heart, using biomaterials and electronic sensors. The device weighed 900g, was roughly the same size as a real heart and could imitate its functions exactly. In a 10-hour operation, it was successfully implanted within a 75-year-old patient at the Georges Pompidou European Hospital in Paris.*
Permanent artificial hearts had been around since 1982, with similar inventions that preceded them going back to the 1940s. Unlike previous versions, however, Carpentier’s invention was the first to be completely artificial and self-regulating. Electronic sensors and microprocessors could monitor blood pressure and flow in real time – instantly adjusting the pulse rate – while a “pseudo-skin” made of biosynthetic, microporous materials could prevent blood clots, which had been a major issue in the past. By 2015, after a period of clinical trials, it is available within the European Union, priced between 140,000 and 180,000 euros (about US$190,000 to $250,000).*
A new generation of hi-tech supercarriers
The first in a new generation of US aircraft carriers is launched this year. The Gerald R. Ford-class replaces the aging Nimitz-class which has been in service since 1975. This new class of ship includes some major improvements over previous generations. These include: increased automation, electromagnetic aircraft launch systems to replace previous steam mechanisms, increased stealth, a new type of nuclear reactor for more efficient power consumption, high tech radar and flight control, as well as the ability to carry the new F-35 Lightning II fighter jet. Ten carriers are commissioned in total, at a cost of $14bn each (including research and development). The 10th and final ship is launched by 2040.*
The United States and South Korea dissolve the Combined Forces Command
The Combined Forces Command has been in place since the end of the Korean War. It acts as a command structure for the multinational military forces supporting South Korea. For more than 50 years, military operations along the demilitarised zone between North and South Korea have been under the command of the USA. This structure is dissolved in 2015, with operations being handed over to South Korea.* From this point onwards, South Korean and American forces will operate as two separate entities during wartime. This event comes at a time of great stress between North and South Korea. North Korea has continued to conduct missile tests, to the continued disapproval of South Korea.
The first large-scale solar updraft towers are operational
The first large-scale solar updraft towers are completed in 2015.* Built by EnviroMission – a start-up company that purchased land in Arizona, USA – they stand 800 metres in height, over twice as tall as the Empire State Building. Each generates 200 megawatts of clean, renewable energy – enough to serve 150,000 homes – and equivalent to removing 220,000 polluting cars from the roads.*
The towers work by combining three old and proven technologies: the chimney effect, the greenhouse effect, and the wind turbine. Air is heated by the Sun and contained in a very large greenhouse-like structure around the base; the resulting convection causes air to rise up the chimney. This airflow then drives turbines, producing electricity.
The towers have a number of advantages:
- Because they work on temperature differential, not absolute temperature, they work in any weather;
- Because the heat of the day warms the ground up so much, they continue working at night;
- Since large areas of hot, dry land provide the best results, they can be built on useless and uninhabited land in the middle of the desert;
- They use no resources such as coal or uranium – just air and sunlight;
- They emit zero pollution. The only “emission” is warm air from the top of the tower. In fact, because of the greenhouse underneath, they can also be used for growing vegetation;
- They require virtually no maintenance and will last for almost a century;
- They can serve as tourist attractions, with money being generated from people wishing to experience their viewing galleries at the top.
This new technology offers hope for the future, coming at a time when the world faces an impending energy crisis. Once proven to be commercially successful, it will be deployed on a wider scale in the 2020s.
Queen Elizabeth II is the longest reigning monarch in British history
On 10th September 2015, Elizabeth II becomes the longest reigning monarch in British history – surpassing the record held by Victoria, her great-great grandmother. Having ascended to the throne on 6th February 1952, Elizabeth II has now reigned for 63 years and 217 days.*
The six decades of her reign have witnessed enormous changes on the world stage – including the dismantling of the British Empire, the civil rights movement, the growing empowerment of women in society, the development of the Space Age, accelerating globalisation, the fall of communism in Europe, the end of the Cold War, the dawn of the information age, and the rise of China, to name but a few.
Now aged 89, she is becoming noticeably frailer and has scaled back her official duties. The next milestone (assuming she lives that long) will be in 2022 – her Platinum Jubilee. Her eldest son Charles will succeed her, becoming King Charles III.
Personal biometric scanners for online banking
In 2015, the United Kingdom introduces Finger Vein Authentication Technology (VeinID) to improve banking security.** These devices are initially provided to corporate clients, but soon made available to regular consumers. Other countries had already used this form of personal biometric scanning in certain banks and cash machines, but the UK is the first to offer it for homes and remote offices globally.
Desktop card readers, phone authentication and PIN codes are no longer needed, as vein pattern recognition is both faster and more reliable. It is practically impossible to spoof or replicate – even more accurate than fingerprint ID – and the finger must be attached to a live human body in order for veins in the finger to be scanned. The process takes just two seconds, using a near-infrared (NIR) LED and monochrome CCD camera sensor to make the red pigment in blood (haemoglobin) absorb NIR light, with veins appearing as dark lines. No public record is kept, as the user’s pattern is stored on their SIM card only.
DDR4 memory reaches the home PC market
DDR4 is the fourth generation of double data rate, synchronous dynamic random-access memory (SDRAM) after DDR (2002), DDR2 (2004) and DDR3 (2007).* It features greater speed, memory density and energy efficiency, with devices using 20 nanometre (nm) process technology allowing consumer-grade modules of up to 32 GB.* Though Samsung and others introduced DDR4 memory boards in 2013, processor boards like Intel’s Broadwell did not yet support this standard. High-end servers in data centres were able to take advantage of DDR4 in 2014. However, the home PC market would have to wait until 2015.*
|Year of release||2002||2004||2007||2013|
|Speed||266 Mhz||400 Mhz||1066 MHz||2133 MHz|
|Maximum size||1 GB||2 GB||16 GB||32 GB|
|Energy required||2.5 volts||1.8 volts||1.5 volts||1.2 volts|
Windows 10 is released by Microsoft
Following the much-criticised Windows 8, Microsoft launches a major overhaul of the operating system in 2015. Skipping past version 9.0, this instead becomes Windows 10. It is designed to run on a wide range of platforms – including the “Internet of Things” – with a tailored experience for each. Windows 10 addresses a number of usability issues, refining the “Metro” interface and bringing back the traditional Start Menu. Users can now switch between multiple desktop screens for a tidier workspace. The OS features a more unified code base, for improved compatibility and simpler transfer of data between various devices and services. There is a greater focus on apps. Advanced gesture recognition is also incorporated, now that 3D cameras are becoming more common. It also deals with power management issues. Initially codenamed “Threshold”, it is released in the second half of 2015.**
The Archival Disc format is launched
This year sees the release of a new optical disc format with up to 300 GB capacity, jointly developed by Sony and Panasonic. For comparison, dual-layer Blu-rays can store up to 50 GB. Known as Archival Disc,* it is initially aimed at industries like digital cinema (for storage of 4K/2160p video), broadcasters and cloud centres handling big data. The discs can withstand changes in temperature and humidity, in addition to dust and water, ensuring readability for at least 50 years. Future versions with capacities of 500 GB and 1 TB are planned.
Even denser storage mediums will eventually be possible using molecular, holographic systems to read/write data in three dimensions. A technology known as Holographic Versatile Disc (HVD) had been demonstrated in the prior decade, with standards published in 2007. A number of release dates were announced, but these all passed.* This format will later resurface, however,* as storage requirements continue to grow exponentially.
The Carteret Islands are abandoned
Due to rising sea levels, the inhabitants of the Carteret Islands in Papua New Guinea are being forced to abandon their homelands.* These people are among the first climate refugees. Crops, trees and wells have been contaminated by seawater, while buildings on the islands have been destroyed. Attempts to build sea wall defences were unsuccessful – these were simply washed away. The melting of polar ice sheets and glaciers, together with thermal expansion, could raise the level of Earth’s oceans nearly 5 feet by 2100 – potentially displacing hundreds of millions of people worldwide.
Dawn arrives at Ceres
Dawn was a robotic spacecraft sent by NASA on a mission to the asteroid belt.* It reached Vesta in 2011, before rendezvousing with the dwarf planet, Ceres, in March 2015. Ceres and Vesta are the two most massive members of the asteroid belt: 950 and 530 km in diameter, respectively. Dawn was the first probe to study and photograph them at close range. Both bodies formed very early in the history of the Solar System, thereby retaining a record of events and processes from the time of the formation of the terrestrial planets.
Of particular interest on Ceres were two distinct bright spots (high-albedo features) inside a crater,* which led to speculation about a possible cryovolcanic origin or outgassing. NASA later said the spots were consistent with highly reflective materials containing ice or salts, but that cryovolcanism was unlikely. Higher resolution images also confirmed that, instead of one or two spots, there were actually several. In addition to being the first probe to explore a dwarf planet, Dawnwas also the first to enter into orbit around a celestial body, study it, and then re-embark under powered flight to a second target. (previous multi-target missions, such as the Voyager program, involved rapid planetary flybys).
New Horizons arrives at Pluto
In July 2015, NASA’s New Horizons spacecraft performed a close flyby of Pluto, becoming the first mission in history to visit the distant world. This probe – launched in January 2006 – had travelled 3 billion km through space. At its closest approach, it flew 12,600 km (7,800 mi) above the surface, with a relative velocity of 13.8 km/s (49,600 km/h; 30,800 mph).
The initial photos revealed a surprisingly young terrain, evidenced by the lack of impact craters and suggesting that volcanism or some other geological process reshaped the landscape within the last 100 million years. The onboard cameras showed icy mountains reaching up to 11,000ft (3,300m) high, comparable to North America’s Rocky Mountains. A large, light-coloured region measuring 1,590 km (990 mi) across was nicknamed “the heart” and then formally named Tombaugh Regio, in honour of astronomer Clyde Tombaugh who discovered Pluto in 1930. New measurements also showed that Pluto was slightly larger than previously thought, with a diameter of 2,370 km (1,472 mi), compared to earlier estimates of 2,306 km (1,432 mi).
Because of the vast distance between Pluto and Earth (radio communications took four and a half hours, even at the speed of light), it was only possible to return a faint signal at 1 or 2 kilobytes per second. It would therefore take over a year to transmit all of the images and data. New Horizons would continue to explore the Pluto system for five months, including its five moons, before entering the Kuiper belt* and eventually leaving the Solar System, heading in the direction of the constellation Sagittarius.*
Electric car ownership reaches 1 million worldwide
In 2010, there were about 25,000 electric cars on the world’s roads. This number grew exponentially during the next five years,* reaching over a million by the end of 2015. Pure electric car sales were led by Japan with a 28% market share of global sales, followed by the United States with a 26% share, China at 16%, France with 11% and Norway with 7%.* On a per capita basis, the leaders by far were Norway (6.1%) and the Netherlands (5.55%) with Iceland (0.94%) considerably behind in third place.* The biggest electric car companies were Nissan, GM/Opel, Toyota, Tesla and Ford.
Despite growing rapidly, electric cars still only accounted for a tiny percentage (0.1%) of the billion or so total cars in the world. The main factors limiting their uptake were the high cost (even after government incentives), range anxiety, charging times and lack of public recharging infrastructure. A number of notable innovations were underway, however, that would allow these vehicles to continue their upward trend.
Arguably the greatest advance was an ongoing fall in the price of batteries; from an average of $900/kWh in 2010, to under $600/kWh in 2015 and forecast to reach $300/kWh by 2020. Battery production would see a dramatic increase with Tesla’s “Gigafactories” beginning in 2017.* Tesla was also constructing a “supercharger network”, offering high-speed charges for free. By the end of 2015, around 98 percent of the US population would lie within range of a station. Networks were being established in Europe and Asia too.
Battery swapping was another method being developed, whereby a depleted battery is exchanged for a fully charged one in five minutes, saving the delay of waiting for the battery to charge. The first modern commercial deployment of this technology* ended in bankruptcy for the company involved* – but others would continue to develop and standardise the technology.
Other opportunity areas for cutting costs included vehicle lightweighting to extend range, electric-drive systems fully integrating motors and electronics, employing wide bandgap semiconductors, nanotechnology materials and non-rare earth motors. By the 2020s, wireless electricity is becoming a fairly common feature of urban centres and this further enhances the appeal of electric cars.*
With increasing concerns over energy and the environment – alongside breakthroughs in technology and cost – these vehicles have a bright future in the years and decades ahead.*
Trucks with emergency braking systems are mandatory in Europe
In November 2015, an EU law comes into effect which mandates that all new trucks must be fitted with emergency braking and collision warning systems.* This has been introduced in an effort to lower the number of rear-end collisions, which account for a significant proportion of road accidents.
A radar and camera, working together to identify and monitor vehicles in front, can prevent a collision with a moving target at relative speeds of up to 44 mph (70 km/h). When the system detects a vehicle that the truck will hit at its current speed, the warning system activates a constant red light in the windscreen in order to attract the driver’s attention.
If the truck fails to detect any reaction from the driver, such as steering or braking, the light begins to flash red accompanied by a beeping sound. If there is still no reaction, the system applies the brakes gently. When all this fails too, an emergency braking system is activated, bringing the truck to a complete stop. In addition, to alert other drivers to the situation, the brake lights on the rear of the truck will change from fixed to flashing.
By the end of this decade, the system is being extended to cars, too.* As more and more technology appears both in vehicles and road infrastructure, the number of accident fatalities continues to trend downwards,* reaching almost zero in the latter half of the century, with human drivers being entirely replaced by AI.
The deadline for the Millennium Development Goals
In 2000, the largest gathering of world leaders in history took place, as 193 UN member states met in New York to discuss the Millennium Development Goals (MDGs). These were eight international objectives with ambitious targets for developing countries, most of them to be achieved by the end of December 2015.*
• Goal 1: Eradicate extreme poverty and hunger
– By 2015, reduce by half the proportion of people living on less than $1 a day.
– By 2015, reduce by half the proportion of people who suffer from hunger.
• Goal 2: Achieve universal primary education
– By 2015, ensure a full course of primary schooling for boys and girls alike.
• Goal 3: Promote gender equality and empower women
– By 2005, eliminate gender disparity in primary and secondary education; and at all levels of education by 2015.
• Goal 4: Reduce child mortality rates
– By 2015, reduce by two-thirds the number of children dying under age five.
• Goal 5: Improve maternal health
– By 2015, reduce by three quarters the number of women dying from complications of pregnancy and childbirth.
• Goal 6: Combat HIV/AIDS, malaria, and other diseases
– By 2015, halt and begin to reverse the spread of HIV/AIDS.
– By 2015, halt and begin to reverse the incidence of malaria and other major diseases.
• Goal 7: Ensure environmental sustainability
– Reverse the loss of environmental resources.
– By 2015, halve the proportion of people lacking access to safe drinking water.
– By 2020, achieve significant improvement in the lives of at least 100 million slum dwellers.
• Goal 8: Develop a global partnership for development
– Address the special needs of the least developed countries, landlocked nations and small island developing states.
– Deal comprehensively with the debt problems of developing countries through national and international measures, in order to make debt sustainable in the long term.
– In cooperation with the private sector, make available the benefits of new technologies, especially information and communications technologies.
To accelerate progress towards the MDGs, the G-8 Finance Ministers met in London in June 2005 and reached an agreement to provide enough funds to the World Bank, the IMF and the African Development Bank to write off $55bn of debt owed by the Heavily Indebted Poor Countries (HIPC). This would allow these impoverished nations to re-channel the money saved from the cancelled debt to social programs for improving health and education and for alleviating poverty.
Achieving the MDGs would not necessarily depend on economic growth alone and expensive solutions. In the case of MDG 4, some developing countries like Bangladesh showed that it was possible to reduce child mortality with only modest growth, via inexpensive but effective interventions such as measles immunisation. A number of important and innovative new technologies were also emerging – such as the $100 laptop project,* the LifeSaver bottle* and the genetic engineering of mosquitoes.*
By 2010, some countries had achieved many goals, while others were not on track to realise any. The countries with major success stories included China (whose citizens in poverty fell from 452m to 278m), India, Brazil, Thailand, Vietnam, Cuba, Honduras, Nicaragua, Ecuador and Ethiopia.
However, some regions in Sub-Saharan Africa failed to make any significant changes in improving their quality of life. The prevalence of hunger in the Democratic Republic of Congo (DRC), for example – Africa’s 2nd largest country – more than doubled, while Zimbabwe saw a nearly 50% increase in poverty and Kenya’s child mortality rate increased from 105 to 128 per 1000.
Progress towards reaching the goals was therefore mixed. There were setbacks and disappointments. But overall, the reduction in poverty and increased access to health, education, technology and other essential services was without precedent in many countries’ histories. Of particular note was the number of deaths due to AIDS, which saw a dramatic levelling off and decline.* A new set of goals is established for 2016-2030.