Contents 1. Introduction 2 2. Research the phenomenon of e-waste 2 3. Concept of 4 levels of thinking 2 4. Origin and Growth of Problem 4 5. Conclusion 6 6. Reference 7   1. INTRODUCTION The E-waste is the discarded form of the electronic and the electrical devices which cannot be used again. For this, some people tend to reuse, resale, salvage depending upon the durability and condition of any electronic product. (Cui et al., 2017). With this, there is a complete informal processing of the e-waste mainly in the countries like Australia, which leads to the major adverse effect on the human health as well as environment. 2. RESEARCH THE PHENOMENON OF E-WASTE As per the article research by Rebecca, 2017, the broken or the redundant computers are most hazardous waste to Australia, and it is completely illegal to ship them out of the city. This will lead to the discovery of the band monitor along with the integrity and regulation of the growing problems. The process is based on monitoring about the visit to check the health as well as the children welfare while working on the site of Agbogbloshie dump which is considered to be the worst dump part in the world. (Heacock et al., 2016). Over 500 container loads are for the electronic wastes that are coming from the different developed countries where the container also loads all the products. The piles of the e-waste are growing, but Work Ventures which is the non-profitable group tends to refurbish the computers and then tend to sell them at a lower price and a loss. 3. CONCEPT OF 4 LEVELS OF THINKING a. Events As per the article by Rebecca, 2017, it has been seen that Westpac is working on handling the control of the electronic waste which is hazardous. But there is a lack of the regulatory oversight due to which the e-waste tends to end up in dumps. The warning is mainly about the temptation for the recyclers to avoid all the costly and the legitimate disposal of what is being collected. The third party recyclers are prepared to also export the waste from Australia which is completely illegal. (Garlapati, 2016). b. Patterns The major issues and the patterns that depict the changes, occurring over time are the continuation of the events where the children are continuously being affected by the adverse effects of the e-waste. The kids are facing the problem of skin disease as well as the heart problem. As per the patterns and the events, Australia national e-waste recycler Geordie Gill received emails from the hungry buyers of e-waste. c. System Structures There are some of the major causes for the growth of the e-waste which is the growth of the technological devices. Here, it causes the people to discard their old computer and let them build the waste. The growth of population and the use of computers, buying and selling them is the major requirement of the generation. (Wu et al., 2016). The e-waste is also due to the human mentality as everyone is getting smarter with the better jobs and people. The people either pay the tax or use their money for buying new technologies. d. Mental Models It is important to focus on the mental thoughts, moral, ethics, expectations, and values where our mental model neglects the systematic and the detrimental effects of the pollutants that are caused due to the burning of the e-waste. The recent report by the BlackSmith Institute documents about the repercussions of the pollution from the different sources like the environment waste which leads to the death of the people or cancer incidents which are incurable. (Rajkumar et al., 2016). 4. ORIGIN AND GROWTH OF PROBLEM There are different companies which are working on the electronic industry base. Hence, the companies are also known to be using the faster and the cheaper forms of the electronic gadgets where the advancement of competition is mainly from the company. The rate is also rising where the new devices are launched depending upon the introduction of the product in the market by the other company. (Nishimura et al., 2017). With this, the new device also has some better features with the improved functionality that is set at the same cost or above. (Tue et al., 2016). The other factor that tends to contribute to the rate of the e-waste is the dearth of recycling facilities in the countries where there are devices that can easily be reused or recycled. With the development in the different countries, it has been seen that the computer sales is increasing day by day which tends to end up in the globalization issues at an alarming rate. The technology is also growing with new products and the appliances which influence the market system of the country as well. MNC profits need to work on the business sections which is mainly affecting the middle-class technology, growth, and quality issues. With the problems related to more power and money, people tend to buy more products which have no resale value, or there is a change of mentality for the money power people. The increasing population is one of the unitary methods that adds to the trouble. Figure: Steps to follow Reduce E-waste 5. CONCLUSION The major focus of the people should be mainly to follow the 3Rs reduce, reuse and recycle which will help in proper usage of the material. With this, there are certain other processing techniques which hold the ability to recognize the problems mainly of the repairable parts. (Tue et al., 2016). The recycling will also include the effective solution with the recovery of the waste for the future uses. This could be through the dismantling and provide the reuse facilities, where the natural resources like the air and water are also conserved.   6. REFERENCE Cui, J.L., Luo, C.L., Tang, C.W.Y., Chan, T.S. and Li, X.D., 2017. Speciation and leaching of trace metal contaminants from e-waste contaminated soils. Journal of Hazardous Materials. Heacock, M., Kelly, C.B., Asante, K.A., Birnbaum, L.S., Bergman, Å.L., Bruné, M.N., Buka, I., Carpenter, D.O., Chen, A., Huo, X. and Kamel, M., 2016. E-waste and harm to vulnerable populations: a growing global problem. Environmental Health Perspectives (Online), 124(5), p.550. Garlapati, V.K., 2016. E-waste in India and developed countries: Management, recycling, business and biotechnological initiatives. Renewable and Sustainable Energy Reviews, 54, pp.874-881. Wu, C.C., Bao, L.J., Tao, S. and Zeng, E.Y., 2016. Dermal uptake from airborne organics as an important route of human exposure to e-waste combustion fumes.’ Rajkumar, D.S. and Nithya, B., 2016, May. Experimental Investigation on the Strength Properties of M25 Grade Concrete with Partial Replacement of Coarse Aggregate by E-Waste. In International Journal of Engineering Research and Technology (Vol. 5, No. 05, May-2016). IJERT. Nishimura, C., Horii, Y., Tanaka, S., Asante, K.A., Ballesteros, F., Viet, P.H., Itai, T., Takigami, H., Tanabe, S. and Fujimori, T., 2017. Occurrence, profiles, and toxic equivalents of chlorinated and brominated polycyclic aromatic hydrocarbons in E-waste open burning soils. Environmental Pollution. Tue, N.M., Goto, A., Takahashi, S., Itai, T., Asante, K.A., Kunisue, T. and Tanabe, S., 2016. Release of chlorinated, brominated and mixed halogenated dioxin-related compounds to soils from open burning of e-waste in Agbogbloshie (Accra, Ghana). Journal of hazardous materials, 302, pp.151-157. Rebecca. (2017). Australian e-waste ending up in toxic African dump, torn apart by children. Available at: