Economics Business of Uranium- Free Samples - MyAssignmenthelp.com

Question: Discuss about the Economics Business of Uranium. Answer: Introduction The selected resource is uranium which gains significance on the rising concerns in relation to climate change caused on account of global warming. Uranium is used for the generation of electricity which can enable lower consumption of other fossil fuels particularly coal and thereby lessen the carbon emissions. This shift from coal to uranium would have significant implications for Australia considering the prominent exports that it does. The recent times have been quite challenging for this resource owing to the plummeting price (Green, 2016). In this background, the given report would aim to highlight the demand and supply forces based on which the current fall can be explained and a call on the possible future for uranium can be taken. Discussion It is noteworthy that uranium is a commodity and thus like others, the market price is function of the respective demand and supply. Thus, the changes in price are dependent on changes observed in either of the above factors or potentially both. Hence, a price increase would be observed when the demand of uranium is increased and the same is not matched by a proportional supply. But, when there is a sudden decline in demand of uranium, then the price would fall as the supply would take some time to adjust. The supply typically takes time to adjust particularly when there is a need to increase the production and fresh capacity is to be created (Mankiw, 2014). During the recent past, uranium prices have plummeted and the same can be analysed using the demand supply framework highlighted above. The uranium prices fall is the result of the falling demand owing to the concerns regarding the safety of nuclear energy that have come to the front since the Fukushima incident. As a result, the public opinion has turned against the nuclear energy which has led to shutdown to existing facilities and issues with the installation of new nuclear plants (FOE, 2013). The case in point related to Japan which before the Fukushima disaster was a key nuclear energy producer but in wake of this crisis, it had to shut down the various nuclear power plants. The effect was not limited only to Japan as similar responses was observed in the developed world where a strong case was made for a shift to other renewable sources which were free from risk of radiation threats. The countries in the developing world have also witnessed resistance of the people in relation to the safety of these endeavours considering the potential harm of nuclear radiations. The impact of the concerns highlighted above has led to fall in demand of uranium which can be captured through the following demand supply graph. Since there has been a reduction in demand, hence there has been a leftwards shift for the demand curve to D1 which in turn leads to a drop in equilibrium price and quantity consumed to P1 and Q1 respectively. The supply curve continues to remain static as the supply cannot be altered in the short run and some reduction may come only when inefficient players shut down (Nicholson and Snyder, 2011). On account of the falling uranium prices, the uranium suppliers are adversely impacting on account of a reducing profit margins as scope of lowering cost is quite limited and hence lower prices eats away the profit margins. For the smaller players with exposure to only uranium mining, the impact has been quite dramatic and some of these players have shut shop. However, this is not likely to significantly alter the supply dynamics as the big players would most likely survive the low prices (FOE, 2013). In view of the above falling prices, it makes sense to use the demand supply forces to estimate the likely direction of uranium prices moving forward in the future. In relation to the economic theory, the key determinant of the price is likely to the demand of uranium which is estimated to remain tepid in the short and medium term. To understand this, the demand scenario of various consumers needs to be considered. Even though Japan has restarted the nuclear power plants but fresh demand is years away as the current stockpile available would be sufficient (Cormack, 2014). The developed countries based in Europe along with US are looking to alternative energy resources particularly solar, wind energy and aiming for technological breakthroughs and nuclear energy seems to have fallen out of favour which would result in low to negligible demand for these nations. A possible exception to this stance is Russia which is actively promoting nuclear energy but owing to significant uranium depo sits the external demand for uranium would not arise from Russia going forward (Green, 2014). The possible hope for the uranium producers rests on the shoulders of developing world which on account of energy shortage and rising economic growth has been embracing nuclear energy. Two noticeable examples of this outlook is in form of China and India (McHugh, 2016). However, any significant incremental demand from these countries would also not arise as the new reactors are under construction and owing to high gestation would take time to commercially be operational. Further, the development in technology leading to the introduction of breeder reactors has lowered the fuel consumption and this trend is likely to continue. Thus, owing to lacklustre demand outlook in the near future, the price recovery would be limited and sluggish prices would prevail (Levit, 2016). Conclusion It is apparent from the above discussion that the plummeting price of uranium can be explained on account of the falling demand on account of safety concerns. Clearly, this has had adverse impact on the profitability of operations of uranium miners but it would not lead to any significant downward revision in supply. Further, in accordance to the demand supply theory, it has also been highlighted that in the near to medium term, a significant price recovery in uranium may be unlikely. This is primarily on account of the demand outlook remaining lacklustre with incremental demand expected from developing countries. References Cormack. L. (2014), Uranium jumps as Japan reopens reactors, [Online] Available at https://www.afr.com/markets/commodities/uranium-jumps-as-japan-reopens-reactors-20141112-11l8li (Accessed December 1, 2017) FOE (2013), Uranium price slumps, Paladin Energy in trouble, [Online] Available at https://www.foe.org.au/uranium-price-slumps-paladin-energy-trouble (Accessed December 1, 2017) Green, J. (2014), Uranium how low can it go?, [Online] Available at https://www.businessspectator.com.au/article/2014/5/29/energy-markets/uranium-%E2%88%92-how-low-can-it-go (Accessed December 1, 2017) Green, J. (2016), Australias uranium industry foundering nearlydead, [Online] Available at https://nuclearinformation.wordpress.com/2016/06/12/australias-uranium-industry-foundering-nearly-dead/comment-page-1/ (Accessed December 1, 2017) Levit, D. (2016), Uranium Prices Recovery Could Take 10 Years, [Online] Available at https://www.economiccalendar.com/2016/05/13/uranium-prices-recovery-could-take-10-years/ (Accessed December 1, 2017) Mankiw, G. (2014), Microeconomics (6th edition), London: Worth Publishers McHugh, B. (2016), Uranium price increase around corner as China and India look to nuclear to reduce carbon emissions, [Online] Available at https://www.abc.net.au/news/2016-03-09/uranium-future-price-set-to-improve-as-new-plants-built/7232944 (Accessed December 1, 2017)