Engineers are the world's lifeline to everything that defines our civilization, not unlike the Romans with their aqueducts, toilets, and sewer systems. Environmental engineering is a critical career field that helps keep our planet inhabitable and sustainable. If you are considering embarking on a career dedicated to environmental engineering, there are many facets of your education that will come into play, and the more you know now, the better engineer you will be.
Friday, September 9, 2016
Essay innovation
Smart technology
Technology has become ever present in different aspects of our lives, but most increasingly in our education system and for the student in these schools. This can be seen by the increased amount of technology that each student posses from smart phones, to iPods, and iPads. As well as the increased amount of technology in the classrooms themselves from smart-boards to computer labs and online classes. While some of this increased technology can have disadvantages like cyber bulling, sexting, and plagiarism, the advantages technology has in the education system greatly out ways these. Evolving technology in schools helps disabled kids attend school with minimal aid, helps prepare students for using technology in the real world, and helps expand the students ability to obtain more knowledge about the world.
The new advances in technology have helped students with both physical and mental disabilities be able to attend school easier. New innovations in wheelchairs have allowed students with physical disabilities to participate in sports with their fellow students. Wheelchairs have been created so students can partake in track and field and other sports like basketball. Casey Followay of Wooster, Ohio, is an example of a student using a racing wheelchair that also him to race in his high schools track team. As well as wheelchairs, new speaking devices, like the electronic pointing device and sip and puff system, have been invited to allow students with speaking and physical impairments to be able to communicate. The electronic pointing device allows the student to control the curser on a computer screen without the use of their hands. The sip and puff system is activated instead by inhaling or exhaling. Theses devices can be used in conjecture with a computer program that speaks out commands, comments or words, allowing the participant to speak and communicate with other students and teachers. Furthermore, cochlear implants permit students who are profoundly deaf or severely hard of hearing to partake in school discussions and classes. The device and the microphone the teacher wears allow the student to hear and understand speech better, making it possible for them be more independent in school and classes. All these devices allow students to be able to have greater interaction with their teachers and fellow classmates.
New advances in technology also prepare students for the real world, whether it is for a future job or investing and saving the money they will make from their jobs. In many classes Effective Writing to World History 101 students use programs like Microsoft Word and PowerPoint to write their essays and to create presentations. When I visited my uncle, a financier, I saw first hand how necessary these computer programs were in his day to day job. Also, in my high school business class we used computers to keep track of the stock market and trades. Each student had a excel sheet that they used to keep track of the stock market and an investing program to learn how to invest in the stock market. By learning as students how to use the computer to invest and trade we will be better equipped as adults to invest in stock markets and to keep track of our funds and investments. Furthermore, in my photography classes I an advance photographer used computers to learn how to create digital art and graphic art. Later on these skills will become useful for creating business cards, posters or designing something for a job or business. For example my mother an event organizer uses digital art skills to create posters and invitations for companies events. Through all these opportunities in classes to use technology, students can use their knowledge to further themselves in the workforce and for when they are adults in their everyday lives.
Advancing technology has expanded students opportunities to interact with the world and learn vast amounts of knowledge. Students can Skype with people around the world just like many Loyola students have Skyped with students in Spain to practice their Spanish. This allows for Loyola students, as well as other students who do this, to learn the culture and language of another ethnicity and country first hand. This makes the student become more cultivated and open to other countries and cultures. Because of the vast amount of information online, students are able to gain larger amounts of knowledge. Students are able to learn vast amounts of details about events that are happening all around the world. For example because of social media, people in places like Syria and Egypt were able to interact and let the world know first hand what was happening during the revolts. Without technology this information would never have been accessed by the millions of people and students worldwide. Also, students can publish their work online, allowing for students to become published authors and to get critic and credit for their work. In my Understanding Literature class my fellow classmates and I have published our writing on a blog for others to read, but also as well to allow us to read our classmates work. By doing so we are able to more actively partake in class and connect our insights with the insights our fellow classmates have in their writings.
Technology will always be evolving and advancing. It will continue to make life easier for disabled students, make students more prepared for future jobs, and more intellectual about the world as a whole. Technology and the education system will always go hand in hand now that we live in technology influence world and society. It will be up to our generation to make sure that these innovations in technology continue to evolve to fit the needs of people and to be used to make life better, especially for students.
Sunday, September 4, 2016
infinitive gerund list
9 = verb followed by a gerund OR a noun + an infinitive
13 = verb followed by a gerund OR an infinitive with a difference in meaning
14 = verb followed by a gerund OR an infinitive with little difference in meaning
13 = verb followed by a gerund OR an infinitive with a difference in meaning
14 = verb followed by a gerund OR an infinitive with little difference in meaning
| admit | He admitted cheating on the test. |
| advise [9] | The doctor generally advised drinking low-fat milk. |
| allow [9] | Ireland doesn't allow smoking in bars. |
| anticipate | I anticipated arriving late. |
| appreciate | I appreciated her helping me. |
| avoid | He avoided talking to her. |
| begin [14] | I began learning Chinese. |
| can't bear [14] | He can't bear having so much responsibility. |
| can't help | He can't help talking so loudly. |
| can't see | I can't see paying so much money for a car. |
| can't stand [14] | He can't stand her smoking in the office. |
| cease [14] | The government ceased providing free healthcare. |
| complete | He completed renovating the house. |
| consider | She considered moving to New York. |
| continue [14] | He continued talking. |
| defend | The lawyer defended her making such statements. |
| delay | He delayed doing his taxes. |
| deny | He denied committing the crime. |
| despise | She despises waking up early. |
| discuss | We discussed working at the company. |
| dislike | She dislikes working after 5 PM. |
| don't mind | I don't mind helping you. |
| dread [13] | She dreads getting up at 5 AM. |
| encourage [9] | He encourages eating healthy foods. |
| enjoy | We enjoy hiking. |
| finish [13] | He finished doing his homework. |
| forget [13] | I forgot giving you my book. |
| hate [14] | I hate cleaning the bathroom. |
| imagine | He imagines working there one day. |
| involve | The job involves traveling to Japan once a month. |
| keep | She kept interrupting me. |
| like [14] | She likes listening to music. |
| love [14] | I love swimming. |
| mention | He mentioned going to that college. |
| mind | Do you mind waiting here for a few minutes. |
| miss | She misses living near the beach. |
| need [13] | The aquarium needs cleaning. |
| neglect [14] | Sometimes she neglects doing her homework. |
| permit [9] | California does not permit smoking in restaurants. |
| postpone | He postponed returning to Paris. |
| practice | She practiced singing the song. |
| prefer [14] | He prefers sitting at the back of the movie theater. |
| propose [14] | I proposed having lunch at the beach. |
| quit [13] | She quit worrying about the problem. |
| recall | Tom recalled using his credit card at the store. |
| recollect | She recollected living in Kenya. |
| recommend | Tony recommended taking the train. |
| regret [13] | She regretted saying that. |
| remember [13] | I remember telling her the address yesterday. |
| report | He reported her stealing the money. |
| require [9] | The certificate requires completing two courses. |
| resent | Nick resented Debbie's being there. |
| resist | He resisted asking for help. |
| risk | He risked being caught. |
| start [14] | He started studying harder. |
| stop [13] | She stopped working at 5 o'clock. |
| suggest | They suggested staying at the hotel. |
| tolerate | I tolerated her talking. |
| try [13] | Sam tried opening the lock with a paperclip. |
| understand | I understand his quitting. |
| urge [9] | They urge recycling bottles and paper. |
Friday, September 2, 2016
List of Occupations
Aerospace Engineer
Aerospace engineering is the study of the design, development, and production of air and spacecraft. This engineering discipline is often divided between those who pursue careers on the aeronautical side and those working on space craft. Both air and space vehicles contain complex subsystems that require specialists from many engineering groups such as electrical, mechanical, and computer engineering.
Aerospace engineering is the study of the design, development, and production of air and spacecraft. This engineering discipline is often divided between those who pursue careers on the aeronautical side and those working on space craft. Both air and space vehicles contain complex subsystems that require specialists from many engineering groups such as electrical, mechanical, and computer engineering.
Agricultural Engineer
Agricultural engineering is also known as biological engineering, and it covers subjects from aquaculture (raising food sources that thrive in water), to land farming and forestry. These engineers also develop biofuels, plan animal environments, and find better food processing methods. Often they work in offices, but they are also outdoors and traveling to worksites where they oversee equipment function in agricultural settings, and assure that government regulations are met.
Agricultural engineering is also known as biological engineering, and it covers subjects from aquaculture (raising food sources that thrive in water), to land farming and forestry. These engineers also develop biofuels, plan animal environments, and find better food processing methods. Often they work in offices, but they are also outdoors and traveling to worksites where they oversee equipment function in agricultural settings, and assure that government regulations are met.
Automotive Engineer
Automotive engineering is one of the most exciting, challenging and rewarding careers. Whenever a customer drives a new vehicle off a dealership lot, he or she is taking with them the technical expertise of many engineers, but in particular, the automotive engineer. Automotive engineers research, design and develop vehicles and their subsystems. They work with sophisticated technologies to create products that thrill the senses and bring the freedom of mobility to the world.
Automotive engineering is one of the most exciting, challenging and rewarding careers. Whenever a customer drives a new vehicle off a dealership lot, he or she is taking with them the technical expertise of many engineers, but in particular, the automotive engineer. Automotive engineers research, design and develop vehicles and their subsystems. They work with sophisticated technologies to create products that thrill the senses and bring the freedom of mobility to the world.
Biomedical Engineer
Biomedical engineers work with a combination of biology, medicine and engineering. They are trained to analyze and design solutions that will improve patient care. They are the professionals behind sophisticated medical equipment like MRIs and microscopic surgical machines. Biomedical engineers are also responsible for research and development of medical innovations like artificial organs and prosthesis.
Biomedical engineers work with a combination of biology, medicine and engineering. They are trained to analyze and design solutions that will improve patient care. They are the professionals behind sophisticated medical equipment like MRIs and microscopic surgical machines. Biomedical engineers are also responsible for research and development of medical innovations like artificial organs and prosthesis.
Chemical Enginee
Chemical engineers utilize their knowledge of the physical world to manipulate the interactions of individual atoms and molecules. Their talents are generally employed in the research and development of new materials and are critical to numerous fields including nanotechnology, energy storage, and computing. Often working alongside other engineers in interdisciplinary teams to solve humanity's greatest problems, chemical engineers are guaranteed to remain key leaders in securing our future prosperity whether on this planet or any other.
Chemical engineers utilize their knowledge of the physical world to manipulate the interactions of individual atoms and molecules. Their talents are generally employed in the research and development of new materials and are critical to numerous fields including nanotechnology, energy storage, and computing. Often working alongside other engineers in interdisciplinary teams to solve humanity's greatest problems, chemical engineers are guaranteed to remain key leaders in securing our future prosperity whether on this planet or any other.
Civil Engineer
Civil engineers specialize in road, bridge, buildings and water supply system design and construction. They supervise and direct construction teams and work with other engineers. These professionals ensure that every structure built is environmentally compliant and can withstand earthquakes and hurricanes. This is especially true in places where these natural calamities often strike.
Civil engineers specialize in road, bridge, buildings and water supply system design and construction. They supervise and direct construction teams and work with other engineers. These professionals ensure that every structure built is environmentally compliant and can withstand earthquakes and hurricanes. This is especially true in places where these natural calamities often strike.
Computer Engineer
Computer Engineers develop and improve the software programs and hardware that make computers run. Computer Engineers may specialize in either software or hardware. From operating system software, such as Windows and Linux, to individual computer programs, such as Photoshop and Microsoft Office, Software Engineers turn piles of hardware into fully functional computers. Hardware Engineers develop the hardware of computers, including the motherboards, graphics and audio cards and drives that are later programmed by Software Engineers.
Computer Engineers develop and improve the software programs and hardware that make computers run. Computer Engineers may specialize in either software or hardware. From operating system software, such as Windows and Linux, to individual computer programs, such as Photoshop and Microsoft Office, Software Engineers turn piles of hardware into fully functional computers. Hardware Engineers develop the hardware of computers, including the motherboards, graphics and audio cards and drives that are later programmed by Software Engineers.
Drafting and Design Engineer
Drafting and Design Engineering is an exciting career that allows the engineer to be involved in all stages of the design process, from conception to presentation of the finished plans. This career requires a working knowledge of drafting and design principles, material types and properties, and manufacturing processes.
Drafting and Design Engineering is an exciting career that allows the engineer to be involved in all stages of the design process, from conception to presentation of the finished plans. This career requires a working knowledge of drafting and design principles, material types and properties, and manufacturing processes.
Electrical Engineer
Electrical engineers specialize in power supply and generation. They design, develop, test and supervise electrical equipment manufacturing. They have also been trained to handle responsibilities like wiring and lighting installations in buildings, automobiles and aircraft. What is great about being an electrical engineer is that the training is so extensive that graduates may land a job in many different industries such as construction, manufacturing and design.
Electrical engineers specialize in power supply and generation. They design, develop, test and supervise electrical equipment manufacturing. They have also been trained to handle responsibilities like wiring and lighting installations in buildings, automobiles and aircraft. What is great about being an electrical engineer is that the training is so extensive that graduates may land a job in many different industries such as construction, manufacturing and design.
Environmental Engineer
Environmental engineers use science and engineering principles to protect and improve the environment. The quality of air, water, and soil is their primary focus. They seek solutions to water-borne diseases, wastewater management, and air pollution. They work to improve recycling, waste disposal, and industrial hygiene. They analyze soil and water samples. They understand the law as it applies to protecting the environment. Read more...
Environmental engineers use science and engineering principles to protect and improve the environment. The quality of air, water, and soil is their primary focus. They seek solutions to water-borne diseases, wastewater management, and air pollution. They work to improve recycling, waste disposal, and industrial hygiene. They analyze soil and water samples. They understand the law as it applies to protecting the environment. Read more...
Geological Engineer
Geological engineering involves geology,civil engineering, and fields such as mining, forestry and geography. These engineers apply earth sciences to human problems. Specialty areas include geotechnical site studies of rock and soil slope stability for projects; environmental studies and planning for construction sites; groundwater studies; hazard investigations; and finding fossil fuel and mineral deposits.
Geological engineering involves geology,civil engineering, and fields such as mining, forestry and geography. These engineers apply earth sciences to human problems. Specialty areas include geotechnical site studies of rock and soil slope stability for projects; environmental studies and planning for construction sites; groundwater studies; hazard investigations; and finding fossil fuel and mineral deposits.
Marine Engineer
Marine Engineers are responsible for the design and construction of seagoing vessels and structures, focusing primarily on their internal systems. Simply put, they design the onboard electrical, environmental and propulsion systems aboard everything from oil platforms to cruise ships.
Marine Engineers are responsible for the design and construction of seagoing vessels and structures, focusing primarily on their internal systems. Simply put, they design the onboard electrical, environmental and propulsion systems aboard everything from oil platforms to cruise ships.
Mechanical Engineer
Mechanical engineering is the study of motion, energy and force. The mechanical engineer seeks to control these elements by using a combination of material, human and economic resources to develop mechanical solutions that help satisfy the needs and wants of society.
Mechanical engineering is the study of motion, energy and force. The mechanical engineer seeks to control these elements by using a combination of material, human and economic resources to develop mechanical solutions that help satisfy the needs and wants of society.
Petroleum Engineer
Petroleum engineers specialize in designing and developing technology and methods for digging the earth’s surface to extract oil and gas. They find means to obtain either natural gas or crude oil from the ground. In addition, petroleum engineers explore and discover new techniques to extract oil and gas from older wells all over the world.
Petroleum engineers specialize in designing and developing technology and methods for digging the earth’s surface to extract oil and gas. They find means to obtain either natural gas or crude oil from the ground. In addition, petroleum engineers explore and discover new techniques to extract oil and gas from older wells all over the world.
Software Engineer
Software engineers are specialists who are in charge of the testing, design, development and maintenance of computer software for business and personal use. They apply the principles of mathematics, engineering and computer science in creating managing software. These professionals are responsible for programming computers to make them operate as they should.
Software engineers are specialists who are in charge of the testing, design, development and maintenance of computer software for business and personal use. They apply the principles of mathematics, engineering and computer science in creating managing software. These professionals are responsible for programming computers to make them operate as they should.
Environmental Engineering Degrees
Industrial Engineering
Industrial engineering is actually a far-ranging profession that focuses on optimizing complex processes or systems by reducing wastefulness in production. It focuses on systems of people, money, knowledge, information, equipment, energy, and materials and may address mathematical, physical and social science concerns. It brings to bear the principles and techniques of engineering design on many facets of life and seeks to specify, predict, and evaluate the results derived from these systems or processes.
Industrial engineering is actually a far-ranging profession that focuses on optimizing complex processes or systems by reducing wastefulness in production. It focuses on systems of people, money, knowledge, information, equipment, energy, and materials and may address mathematical, physical and social science concerns. It brings to bear the principles and techniques of engineering design on many facets of life and seeks to specify, predict, and evaluate the results derived from these systems or processes.
Mining and Geological Engineering
Mining and geological engineering focuses primarily on the study and design of creating safe and effective means to extract metals and minerals for industrial, commercial and scientific purposes. Requiring education and understanding not only of mining principles and practices, engineers in this field are also expected to have an advanced and dynamic understanding of geological sciences, such as soil and mineral composition, surveying, prospecting and exploratory geological research. In addition to extracting the more conventional materials such as oil, precious and industrial metals and rarer gems and materials, many new advancements in information technology have expanded the role of geological engineering to search and mine for other materials, such as the dozens of special minerals and materials used in computer, tablet and smart phone construction.
Mining and geological engineering focuses primarily on the study and design of creating safe and effective means to extract metals and minerals for industrial, commercial and scientific purposes. Requiring education and understanding not only of mining principles and practices, engineers in this field are also expected to have an advanced and dynamic understanding of geological sciences, such as soil and mineral composition, surveying, prospecting and exploratory geological research. In addition to extracting the more conventional materials such as oil, precious and industrial metals and rarer gems and materials, many new advancements in information technology have expanded the role of geological engineering to search and mine for other materials, such as the dozens of special minerals and materials used in computer, tablet and smart phone construction.
Molecular Engineering
Molecular engineering entails the creation of molecules and the development of new products from them. Often these molecules do not exist naturally and may not be stable enough to employ beyond a narrow of parameter of uses. It is quite difficult to create these particles, as it requires the manual use of sensitive equipment such as a scanning tunneling microscope. The technology has the capacity to take entire libraries of books and condense their contents into a digital storage device the size of a single cube of sugar. This is an interesting field of engineering, with limitless potential. If you want to learn more about working towards a career in this area, search for schools in your area by using our list below. The work of molecular engineers is present in every industry, including robotics, biotechnology, pharmaceuticals, materials, fashion and entertainment. In addition, the agricultural industry and medical devices field is expected to be transformed by innovations in molecular engineering, thereby forging new markets and employment opportunities for trained professionals.
Molecular engineering entails the creation of molecules and the development of new products from them. Often these molecules do not exist naturally and may not be stable enough to employ beyond a narrow of parameter of uses. It is quite difficult to create these particles, as it requires the manual use of sensitive equipment such as a scanning tunneling microscope. The technology has the capacity to take entire libraries of books and condense their contents into a digital storage device the size of a single cube of sugar. This is an interesting field of engineering, with limitless potential. If you want to learn more about working towards a career in this area, search for schools in your area by using our list below. The work of molecular engineers is present in every industry, including robotics, biotechnology, pharmaceuticals, materials, fashion and entertainment. In addition, the agricultural industry and medical devices field is expected to be transformed by innovations in molecular engineering, thereby forging new markets and employment opportunities for trained professionals.
Nanoengineering
Nanoengineering encompasses the practice of the profession on a nanoscale, which stems from the nanometer unit of measure, equivalent to one billionth of a meter. Within the industry, nanoengineering is synonymous with practices of nanotechnology, whereby it focuses on the engineering component of a given technology rather than the scientific side. Nanotechnology professionals have become prized professionals in the current marketplace for their skills and training dealing with microscopic applications.
Nanoengineering encompasses the practice of the profession on a nanoscale, which stems from the nanometer unit of measure, equivalent to one billionth of a meter. Within the industry, nanoengineering is synonymous with practices of nanotechnology, whereby it focuses on the engineering component of a given technology rather than the scientific side. Nanotechnology professionals have become prized professionals in the current marketplace for their skills and training dealing with microscopic applications.
Nuclear Engineering Degrees
Nuclear engineering is the most integrated of the engineering disciplines. The many components of nuclear systems (medical imaging, nuclear fission reactors, ultrasensitive contraband detectors, and fusion reactors) must all be understood as well as how they relate to one another. Nuclear engineers must be experts in their primary field, as well as knowledgeable in other fields such as electronics, thermodynamics, physics, and materials science. The fundamentals of one science are often the same tools used in solving problems in the other disciplines.
Nuclear engineering is the most integrated of the engineering disciplines. The many components of nuclear systems (medical imaging, nuclear fission reactors, ultrasensitive contraband detectors, and fusion reactors) must all be understood as well as how they relate to one another. Nuclear engineers must be experts in their primary field, as well as knowledgeable in other fields such as electronics, thermodynamics, physics, and materials science. The fundamentals of one science are often the same tools used in solving problems in the other disciplines.
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