Hog Wash chronicles the efforts of a group of international environmentalists, investors, and researchers as they attempt to find an ecologically friendly process to clean-up the toxic waste pouring into lakes, rivers, and streams from confined animal feeding operations (CAFOs). This book begins in New Orleans but quickly transitions to Brussels, London, Berlin, Amsterdam, Paris, and Rome. Hog Wash is a first-hand account of what can go terribly wrong when well-intentioned, but naïve academics confront savvy, experienced conmen. There was too much at stake for this project to ever be successful. Too many powerful, wealthy people had too much to lose by protecting the environment. Hog Wash is the third installment of John W. Sutherlin’s ‘environmental trilogy’. Like his previous books, Hog Wash is methodically documented and written in an accessible style that is more like a novel than nonfiction.
Choosing a course that aligns with your interests and passion is crucial for long-term satisfaction and success. If you have a genuine curiosity about water resources, environmental conservation, and the application of engineering principles to protect our planet, you are likely on the right path. Embrace the journey, engage actively in your studies, and seek opportunities for internships, research projects, and practical experiences to enhance your skills and make a positive impact in the field. Keep in mind that it's always beneficial to speak with academic advisors, professionals working in the industry, or alumni who have pursued similar courses to gain additional insights and reassurance. Their experiences can provide you with valuable guidance and help you make informed decisions about your educational and career path.
@yusufmahsan1056 Water resources is a good field for you considering your strengths and weaknesses! Here's why: Strong Match for your Skills: Physics, Chemistry, and Math: These are all fundamental subjects heavily used in water resources engineering. You'll use them in areas like: Hydraulics: Understanding fluid flow and pressure is crucial for designing water systems like dams, canals, and pipelines. (Physics) Water Quality: Chemical processes are used to treat water and analyze its quality. (Chemistry) Modeling and Simulation: Math is essential for creating models that predict water behavior in rivers, aquifers, and treatment plants. (Math) Biology plays a role, but not a dominant one: While some understanding of biology is helpful in water resources, it's not usually the main focus. You might encounter topics like: Aquatic ecosystems: The impact of water projects on fish and other aquatic life. Water treatment processes: The biological processes involved in some treatment methods. These areas can be approached from a practical standpoint, focusing on understanding the impact and treatment mechanisms rather than in-depth biological knowledge. Focus on your strengths: Water resources engineering offers a wide range of sub-disciplines where you can leverage your strengths: Water Treatment: Focus on the design and operation of water treatment plants, using your chemistry knowledge. Water Distribution: Apply your physics and hydraulics understanding to design efficient water delivery systems. Water Resource Modeling: Utilize your math skills to develop models for water management and planning. Addressing the Biology Challenge: If biology is a major concern, you can focus on areas with minimal biological aspects. Alternatively, consider supplementing your knowledge with targeted resources during your studies or career. There are many online courses and textbooks specifically designed for water resources professionals who may not have a strong biology background. Overall, water resources engineering seems like a field that capitalizes on your strengths and offers opportunities to minimize the impact of your biology weakness.
Hog Wash chronicles the efforts of a group of international environmentalists, investors, and researchers as they attempt to find an ecologically friendly process to clean-up the toxic waste pouring into lakes, rivers, and streams from confined animal feeding operations (CAFOs). This book begins in New Orleans but quickly transitions to Brussels, London, Berlin, Amsterdam, Paris, and Rome. Hog Wash is a first-hand account of what can go terribly wrong when well-intentioned, but naïve academics confront savvy, experienced conmen. There was too much at stake for this project to ever be successful. Too many powerful, wealthy people had too much to lose by protecting the environment. Hog Wash is the third installment of John W. Sutherlin’s ‘environmental trilogy’. Like his previous books, Hog Wash is methodically documented and written in an accessible style that is more like a novel than nonfiction.
Thank you for all of these helpful videos!
Glad to hear that is helpful for you Nelson.
Sir? How sweet is the course hope it’s will help me in future I hope I’m not studying the wrong course…I need an answer sir
Choosing a course that aligns with your interests and passion is crucial for long-term satisfaction and success. If you have a genuine curiosity about water resources, environmental conservation, and the application of engineering principles to protect our planet, you are likely on the right path. Embrace the journey, engage actively in your studies, and seek opportunities for internships, research projects, and practical experiences to enhance your skills and make a positive impact in the field.
Keep in mind that it's always beneficial to speak with academic advisors, professionals working in the industry, or alumni who have pursued similar courses to gain additional insights and reassurance. Their experiences can provide you with valuable guidance and help you make informed decisions about your educational and career path.
I am extremely bad at memorising and Biology but good at Physics,Chemistry and Math. Should I study water resource?
@yusufmahsan1056 Water resources is a good field for you considering your strengths and weaknesses! Here's why:
Strong Match for your Skills:
Physics, Chemistry, and Math: These are all fundamental subjects heavily used in water resources engineering. You'll use them in areas like:
Hydraulics: Understanding fluid flow and pressure is crucial for designing water systems like dams, canals, and pipelines. (Physics)
Water Quality: Chemical processes are used to treat water and analyze its quality. (Chemistry)
Modeling and Simulation: Math is essential for creating models that predict water behavior in rivers, aquifers, and treatment plants. (Math)
Biology plays a role, but not a dominant one:
While some understanding of biology is helpful in water resources, it's not usually the main focus. You might encounter topics like:
Aquatic ecosystems: The impact of water projects on fish and other aquatic life.
Water treatment processes: The biological processes involved in some treatment methods.
These areas can be approached from a practical standpoint, focusing on understanding the impact and treatment mechanisms rather than in-depth biological knowledge.
Focus on your strengths:
Water resources engineering offers a wide range of sub-disciplines where you can leverage your strengths:
Water Treatment: Focus on the design and operation of water treatment plants, using your chemistry knowledge.
Water Distribution: Apply your physics and hydraulics understanding to design efficient water delivery systems.
Water Resource Modeling: Utilize your math skills to develop models for water management and planning.
Addressing the Biology Challenge:
If biology is a major concern, you can focus on areas with minimal biological aspects. Alternatively, consider supplementing your knowledge with targeted resources during your studies or career. There are many online courses and textbooks specifically designed for water resources professionals who may not have a strong biology background.
Overall, water resources engineering seems like a field that capitalizes on your strengths and offers opportunities to minimize the impact of your biology weakness.
@PasstheFEExam our university mainly focuses on E coli growth and how to remove E coli from water. Thats it
2:40
2:37 👌
240