Nuclear power in the philippines — what filipinos should know o gastronomo buffet


No one likes power failures. They stop you from working. They stop you from playing. Daily life is so intertwined with electricity, a momentary halt in power basically means a momentary halt in living. The country desperately needs new ways of bringing literal power to her people. That is why Philippine Nuclear Research Institute (PNRI electricity formulas physics) Director Carlo Arcilla attended the tenth annual Atomexpo in Russia from May 14-16. But what exactly is nuclear power, and is the Philippines ready for it? Nuclear Power: what is it?

The nuclear age began on July 16, 1945 when the United States succeeded in detonating an atomic electricity quiz ks2 bomb in New Mexico desert. Codenamed the Manhattan Project, the experiment was the culmination of three years of research into atomic energy. This milestone in science and technology would go on to end World War II and threaten to spark World War III before finally being applied to peacetime advances such as providing power.

Put simply, nuclear energy comes from the splitting of atoms in a process called fission. By splitting dense, radioactive uranium, fission releases the stored energy in atoms as heat. These heat powers turbines, which spin electromagnets in generators. The generators in turn, provide electricity — more than any other power source we currently have. The result is a reliable, stable source of energy electricity for dummies pdf that produces no greenhouse gases. Today, fission reactors in only 25 countries provide 14% of the world’s electricity. Atoms Powering a Nation

Contrary to popular belief, nuclear power is actually cleaner than conventional power sources. It is more efficient, and its fuel lasts much longer than fossil fuels. It does not require large alterations to terrain chapter 7 electricity note taking worksheet as in the construction of hydroelectric power plants. Fission reactors are not intermittent or dependent on the weather as in the case of wind and solar power. It also requires less dedicated land area that large-scale wind and solar plants. This means it can aid green decarbonization efforts on a scale larger than these sources can.

In addition, re-emergence of nuclear power in the Philippines can further technological development. Research into nuclear power can eventually lead from nuclear fission to the holy grail of energy: nuclear fusion. If achieved, this could potentially end the world’s energy crisis forever. Nuclear fusion is in essence, the power of the sun. By using electricity jewels hydrogen from seawater, a fusion plant could generate even greater amounts of energy than traditional nuclear fission plants and produce much less waste.

There is also ethics to consider. Greater energy output means better productivity and better standards of living. Lives may even be saved. Would it be ethical to allow people to live in poorer conditions when a solution is clearly available? Even if fission reactors have greater potential risks associated with them, hydro and gas in oil pan fossil plant failures have historically lead to tens of thousands more deaths than any nuclear plant failures. Would it not be the right choice to avoid the unnecessary deaths by shifting to a power source with a better safety record? The Risks of Nuclear Power

So if nuclear power is so great, why haven’t we all moved away from fossil fuels? The first reason is the cost. Nuclear power is only more efficient than other energy sources when performing at high output. At low output, fission reactors cost more. And of course, there is the initial investment in each power plant and reactor to consider, reaching into hundreds of billions of pesos. This may v lab electricity be money that could be invested elsewhere. Finally, nuclear fuel, like all fuel, leaves by-products. This is normally contained in the plant and can be reprocessed and recycled. However, a few risks remain.

While nuclear power plants are normally safe environments, Chernobyl in 1986 and Fukushima in 2011 prove accidents happen. When a power plant’s core produces more heat than its cooling system can remove, one or more elements of the core can reach its melting point. This is called a nuclear meltdown. When this happens save electricity pictures, temperatures can get so hot, radioactive material can breach containment, irradiating the surrounding area, or even causing an explosion.

Filipinos have an obsession with the new. Filipinos are great at coming up with new projects. We buy new phones, start new businesses, and put up new buildings in urban youtube gas station karaoke areas. But what Filipinos are not good at is maintenance. How many renovated parks remain beautiful a year after? How well does Mall of Asia look now that it isn’t brand new and shiny? If our country cannot maintain the quality of simple public grounds, can we really maintain a fission reactor if our lives depended on it?

There is also the Philippines’ history of waste to consider. Can we trust ourselves to manage radioactive waste when local governments can’t even properly impose clean/green rules? And moving on from material waste to wasted resources, can e electricity bill we really respect nuclear resources at our fingertips? We’ve wasted that before, so history seems to suggest otherwise.

Most Filipinos are aware of the Bataan Nuclear Plant, constructed under the Marcos regime in order to cope with the growing energy needs of Luzon. Unfortunately, construction on the plant halted under the Aquino administration several days following the Chernobyl disaster. At the time of its abandonment, the plant cost USD 2.4 billion. Adjusted for inflation, that is over USD 6 billion today, or Php 315 billion gone to waste. This begs the question electricity formulas grade 9: was the construction a waste, or was the waste in fact in decommissioning the plant? Nuclear Power at the End of the Day

The electricity and magnetism study guide problem is not in atomic energy itself, but in the hands that hold it. Nuclear power may have been conceived in war, but in peace, it has served as a major force in the development of modern society. It would be a mistake for us as a species to deny progress, especially as whether we admit it or not, technology is the natural result of our own evolution. At the end of the day, nuclear power is — well — power. And power demands responsibility.

So to wrap everything up, the increasing demand for energy in the Philippines cannot be denied. Nuclear energy is among the strongest, albeit most controversial candidates for solving this crisis. As risky as it is, it remains one of the greatest paths to progress the country can take. But risk will always exist in all things. Safety, on the other hand, is the result of work and care on part of the year 6 electricity assessment people in charge. When discussing the viability of nuclear power in the Philippines, it is less a question of “is nuclear power safe for the Philippines,” and more of “is nuclear power safe in the hands of Filipinos?”