Uncertainty in measurements
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Difference between torque and power...
* Most Mechanical Engineers are pressured to complete projects "on-time / on-budgit". This normally means that the equipment installed just meets the requirements of Operations but is not a quality piece of machinery that will last. This now falls into the laps of Maintenance Reliability. Look at all of the "throwaway" equipment now utilized in the US!
some things to know about mechanical engineering relevant to the skills invovled are that you need to have good relationships with other people, got to be prompt, good use of hands, have a lot of time, enjoy the work, and eat 43 pickles from smelly socks
In agricultural engineering, scientists apply the concepts and technology of engineering to the production of agricultural goods and services. The science is a broad one, incorporating research from several fields of biology and chemistry with that of mechanical and chemical engineering and basic agricultural practices. Although agricultural engineers are increasingly important to the streamlining of production in large corporate farms, it is a field of study that has proven quite useful to small family farmers as well. Success in today’s agricultural world requires a great deal of study and discipline, which is why a background in agricultural engineering is useful for anybody going into this field.Types of Agricultural EngineersAdvancements in technology have led to increased specialization in agricultural engineering, which is why there are so many subfields in agricultural engineers. The two main categories in agricultural engineering are crop production and animal production. Those who specialize in crop production focus on seeding, tilling and irrigating plant crops, while agricultural engineers in the animal production industry process poultry, beef, pork and other animal products. Other agricultural engineers focus on the development of new machinery and equipment. More recently, there has been a growing focus on soil conservation and sustainable management in agricultural engineering.Education and TrainingGiven the heavy application of biology and engineering, prospective agricultural engineers should seek a college degree in agricultural engineering, food engineering or bio-resource engineering. However, a more general degree in agriculture, forestry or even biology may lead to employment in agricultural engineering. Once employed, it is important for agricultural engineers to remain informed about new technologies, as the industry is a quickly changing one. Often, a post baccalaureate degree in agricultural engineering is necessary for advancement.Salary and Job OutlookWith the growing standardization of the agricultural sector, the demand for agricultural engineers has skyrocketed. However, agricultural engineering is significantly smaller than other areas of engineering. Fortunately, many agricultural engineers are also able to find employment in environmental engineering. Salary depends greatly on location and specialty, but generally starts around $60,000 for entry-level engineers, with several opportunities for advancement and promotion.
Civil engineers often have to do dissolved oxygen tests on lakes, streams, and other bodes of water. This is to monitor human effects on the river.
Engineers will often use reverse-engineering to solve problems. For example, by taking things apart to determine an issue, finding a solution and then putting the object back together again. Engineers know how things work, and so they constantly analyse things and discover how they work.
The principal duties of a mining and geologic engineer is to locate, extract, and make minerals, coal, and metals ready for industrial use. Mining and geological engineers are the brain behind the effective and safe operation of mines; they design underground mines and the tunnels, mineshafts, and means of transportation involved in their operation. In recent times these engineers have become more involved in environmental concerns such as land reclamation. Mining and geological engineers can be broken down into three major categories: the mining engineers involved in coal production, those that specialize in mineral extraction, and the engineers that locate and extract metal ore deposits. Mining engineers involved in coal production are best known for the design of the mines used for extraction. However, these engineers are also involved in the design and oversight of machines used to ready the coal for industrial use. Engineers that focus on extraction of minerals focus on the discovery and extraction of a wide range of minerals. Engineers in this area often specialize in one mineral, such as quartz or phosphate. Mining engineers that focus on the discovery and extraction of metals often focus on the location and extraction of one metal, such as gold or silver. The minimum requirements to become a Mining and geologic engineer are to earn a bachelor’s degree in Mining and geologic engineering; however, it is very possible to cross over from another engineering specialty such as chemical or mechanical engineering. Students who would like to work in this field are encouraged to seek out internships that will provide valuable workplace experience. The employment opportunities in mining and geologic engineering are expected to grow faster than average. This will provide excellent opportunities for potential engineers in the field due to the fact that many current mining and geologic engineers are currently reaching the age of retirement. Mining and geologic engineers are some of the best paid engineers; starting salaries for a mining and geologic engineer are typically around $60,000 to $65,000, one of the highest for any bachelor’s level program. On average, workers in the field earn from $72,000 to $77,000.
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Chemical engineers focus on designing and operating chemical processes - whether that be creating chemicals in bulk through chemical reactions or using chemical properties to separate mixtures of chemicals (like in oil refineries). Mechanical engineers focus on transforming energy from one form to another - like machines. There is some overlap between mechanical and chemical engineering because both disciplines get involved in heat exchangers, pumping, mixing, and vessel design. Civil engineers tend to be more focused on designing and building structures, roads, etc. Ther is often overlap between civil engineers and chemical engineers in the field of environmental engineering and sewage treatment where chemical processes and separations are often involved. Electrical engineers focus more on electricity and electronics so they overlap less with chemical engineering except in the area of controls and instrumentation. Industrial engineers focus on process efficiency. While all engineers have to apply some of the principles of industrial engineering, industrial engineers specialize in it. Petroleum and atomic engineers tend to cover most of the same areas as chemical engineering but with additional trining in oil extraction and atomic physics respectively.
some things to know about mechanical engineering relevant to the skills invovled are that you need to have good relationships with other people, got to be prompt, good use of hands, have a lot of time, enjoy the work, and eat 43 pickles from smelly socks
== Petroleum engineers are the scientists responsible for fulfilling our energy needs. They are involved in all aspects of the oil and natural gas industries from searching for reserves through the drilling, processing and delivery of these resources. The work can be challenging and even dangerous at times with many operations taking place in remote land-based locales, deep sea or polar environments. == Nuclear engineers work with the energy created by atomic fission. They are also associated with developing safe and economical ways to use that power in the aerospace, energy, medical, industrial and agricultural fields. == Aerospace engineers develop vehicles that fly.. Generally divided into two subcategories, aeronautical engineers specialize in aircraft while astronautical engineers handle spacecraft technology. == Three different types of computer engineers made the 50 Highest Paying Careers List. These engineers include: * Hardware Engineers - $91,900: Hardware engineers plan, initiate and sustain the tangible parts of the computer including chips, drives, screens and other mechanical components. * Systems Software Engineers - $89,100: These engineers work within a company to create and support a network that will meet each department's needs, as well as the company's as a whole. * Applications Software Engineers - $83,100: Application engineers design, service and troubleshoot customized software program http://degreedirectory.org/articles/What_are_Some_High_Paying_Engineering_Careers.html
Engineers attend a university or college to obtain a degree in Engineering or Applied Science. This usually takes 4 to 5 years. On graduation they apply for work with firms working at their specialty and are hired on as new (inexperienced) graduate engineers. Often engineers have put in work terms at firms prior to graduation to obtain experience with an employer or in their chosen branch of engineering.
Many companies offer civil engineering jobs. My husband works for an Architectural firm that has jobs for civil engineers working in a structural department. You can also get a job often with city developments as civil engineers are divers in their options.
There are many types of engineering disciplines and the intent of this article is to serve as an introduction to them. Engineering in general is the design, repair, and testing of products using mathematics, science, physics, and technology. It is a technical field, meaning that it is high-paced and most engineers must be aware of new developments in order to do their best. Architectural engineering deals entirely with the design of buildings for commercial, industrial, and residential purposes. It is a fairly difficult field since there are so many factors that must be taken into account when designing a building and nobody wants to be liable when a building collapses. Most university programs will teach the student to do everything from electrical wiring and plumbing to determining what materials are suitable for a given structure. Biomedical engineering involves the design of devices that are intended to be used in medicine. Students in this field are taught a broad range of subjects including biology, chemistry, computer science, electronics, mechanics, and physiology. Biomedical engineers design everything from mechanical prosthetic limbs and synthetic organs to advanced wheelchairs. Civil engineering is a type of engineering that focuses on the design of structures for various purposes, primarily transportation. Civil engineers are the people called upon to design bridges, roadways, tunnels, and various other projects. Most civil engineering university programs focus on a combination of mechanical and architectural engineering. Computer engineering is a field that combines elements of software and electrical engineering. The primary focus of computer engineering is the design and implementation of embedded systems, that is control systems and computers embedded in everyday products. Despite the embedded systems focus, many computer engineers work in purely software engineering jobs. Electrical engineering deals with application of electricity and electronics. Electrical engineers design everything from amplifiers to television sets, often with the aid of circuit simulation programs like PSpice. Electrical engineers require a strong background in mathematics since the solving of circuits can be very complex. Industrial engineers are trained to design manufacturing processes for a multitude of products. An industrial engineer should be able to look at a product and be able to determine what sort of manufacturing process would be most efficient and least costly to implement for the manufacture of that product. They are given a broad background in electricity, computers, mechanics, and economics. Mechanical engineering is probably the oldest field of engineering since it deals with the design of mechanical systems, which are the earliest form of technology. They can design everything from internal combustion engines to suspension systems. Mechanical engineers are given a strong background in mechanical physics, including pneumatics, fluid mechanics, and hydraulics. Software engineers are taught to design software applications for everything from databases to operating systems. Software engineers must learn many software languages in order to be versatile, since many companies will design different software products using more than one language. Software engineers are trained with software architecture in mind, although they often do the actual coding as well.
Yes; in fact, a bachelor of mechanical engineering typically branches out into multiple options to allow specialization on the last year of study, and aerospace is often one of them. Even without choosing this option, though, you may enter the aerospace field with general knowledge of materials and their failure, dynamics, etc. Mechanical engineering is extremely versatile.
Mechanical math refers to the application of mathematical principles and techniques to solve problems related to mechanical systems and engineering. It often involves calculations related to forces, motion, energy, and material properties to design and analyze machines and structures. This discipline combines theoretical mathematics with practical engineering concepts, ensuring that mechanical designs perform as intended under various conditions. Ultimately, mechanical math is essential for optimizing performance and safety in engineering applications.
From Wikipedia, Mechanical is often used as a general term to distinguish from another class of item. Mechanical may mean:Mechanical engineering, a branch of engineering concerned with the application of physical mechanicsMachine, especially in opposition to an electronic itemMechanical watch, utilizing a non-electric mechanismMechanization, using machine labor instead of human or animal laborAutomation, using machine decisions and processing instead of humanManufactured or artificial, especially in opposition to a biological or natural component
Yes, engineering is a very math-heavy degree - it often involves complex physical equations. Depending on the type of engineering (civil, computer, mechanical, etc), different areas of physics and math are required.
Yes, there is a demand for mechatronics engineers both now and in the future. Mechatronic engineers are in high demand due to the increasing number of applications and industries that require a combination of mechanical, electrical, and computer engineering skills. Mechatronic engineers are often employed in the automotive, aerospace, robotics, manufacturing, and medical industries. Currently, mechatronic engineers are in high demand due to the increasing number of applications and industries that require a combination of mechanical, electrical, and computer engineering skills. This is especially true in the automotive, aerospace, robotics, manufacturing, and medical industries. For instance, the automotive industry is increasingly relying on mechatronic systems to improve the efficiency of its vehicles. In the aerospace industry, mechatronic engineers are needed to design, develop, and maintain complex systems. The robotics industry is also utilizing the expertise of mechatronic engineers to develop sophisticated automation systems. Additionally, mechatronics is becoming increasingly important in the manufacturing industry to ensure efficient production processes. Finally, mechatronic engineers are highly sought after in the medical industry to design and maintain medical devices and instruments. In the future, the demand for mechatronic engineers is expected to increase as new technologies are developed. As new technologies are developed, mechatronic engineers will be needed to create and maintain automated systems. Additionally, mechatronic engineers will be needed to develop and maintain smart machines and robots. Finally, mechatronic engineers will be needed to develop and maintain automation systems. Overall, mechatronics engineers are in high demand now and are expected to be in high demand in the future. The increasing number of applications and industries that require a combination of mechanical, electrical, and computer engineering skills will create numerous opportunities for mechatronic engineers.