Architecture is the art and science of designing buildings and other spaces to be occupied or used by people-science, because architects have to understand the physical characteristics of the building materials they include in their designs, as well as the physics of the structural designs themselves; and art, because architects typically try to utilize aesthetic principles at the same time as they're trying to meet human needs via their designs. Indeed, some of the most prominent cultural landmarks in the world-the Duomo in Florence, the Taj Mahal in India, the Empire State Building in New York-first found their form in the minds of architects.Some of the glamour is warranted. Architects are, after all, in the business of dreaming up new structures. But design is only part of architecture. And, in the vast majority of cases, due to cost and time constraints, aesthetically pleasing design is only a minor consideration for the projects architects work on.Once a design has been selected, architects draft the final construction documents and oversee the actual construction. In these detail-oriented stages, architecture seems more like engineering than a creative venture. As one architect puts it, "One of the biggest things we do is coordinate."Architects must understand the science behind the design, down to the strengths of various materials and the benefits and limitations of competing designs. They also absorb stacks of building codes and zoning requirements. Before construction can start, a licensed architect must sign off on all documents.
Electronics engineers create, design and develop everyday devices such as mobile phones, portable music devices and computers. Electronic engineering offers the chance to produce new innovations and developments in telecommunications, robotics, computing hardware, and power and electrical equipment.There is plenty of scope to specialise within the field, with areas of expertise including audio, visual and light electronic equipment; control systems and automation; and microelectronics (computer chips) and telecommunications. There is currently a shortage of electronics engineers around the world – a situation likely to continue for some time to come. Typical duties for an electronics engineer include:using a mix of science and maths, along with engineering techniques, to design, produce, install and maintain telecommunications systems designing and managing equipment used to control and monitor processes, systems and machinery in many different areas using and designing systems to control pressures and temperatures and to manage waste in manufacturing industries writing specifications and drawing up theoretical designs to create user-friendly interfaces planning projects and preparing and managing budgets writing technical reports and keeping up to date with developments in technology and regulations evaluating operational systems and recommending design modifications to eliminate causes of malfunctions or changes in system requirements using computer-assisted engineering (CAE) and design software and equipment to perform engineering tasks
Computer scientists, also called computer and information scientists, can work for government agencies and private software publishers, engineering firms or academic institutions. Businesses and government agencies usually employ these scientists to develop new products or solve computing problems. Computer scientists employed by academic institutions are typically involved in more theoretical explorations of computing issues, often using experimentation and modeling in their research.Computer scientists often work as part of a research team with computer programmers, information technology professionals, and mechanical or electrical engineers. Their research often is used to design new computer technology. They typically investigate technological topics like artificial intelligence, robotics or virtual reality. The results of their research can lead to the improved performance of existing computer systems and software as well as the development of new hardware or computing techniques and materials.Most computer scientists hold a bachelor's degree with a major in computer science, information systems or software engineering. After completing this 4-year program, computer scientists often earn a Ph.D. in computer science, computer engineering or a similar area of study. This additional program includes coursework in hardware and software systems, program languages and computational modeling as well as a research project.
Electro-mechanical technicians combine knowledge of mechanical technology with knowledge of electrical and electronic circuits. They install, troubleshoot, repair, and upgrade electronic and computer-controlled mechanical systems, such as robotic assembly machines.Electro-mechanical technicians typically do the following: Read blueprints, schematics, and diagrams to determine the method and sequence of assembly of a part, machine, or piece of equipment Verify dimensions of parts, using precision measuring instruments, to ensure that specifications are met Operate metalworking machines to make housings, fittings, and fixtures Repair and calibrate hydraulic and pneumatic assemblies Test the performance of electro-mechanical assemblies, using test instruments Install electronic parts and hardware, using soldering equipment and hand tools Electro-mechanical technicians sometimes test and operate machines in factories and other worksites. They also analyze and record test results, and prepare written documentation to describe the tests they did and what the test results were.Electro-mechanical technicians work closely with electrical and mechanical engineers. They work primarily in manufacturing, engineering services, and research and development. Their job tasks involve both engineering theory and assembly line production work. Consequently, they often work both at production sites and in offices.
There are a myriad of career possibilities for IPC engineers. For example, they might design strain gauges or sensors that capture data about the safety, efficiency, and reliability of machines used in manufacturing. They also might design devices like blood glucose monitors, aircraft sensors, smoke detectors, or dynamometers that measure torque. They might develop electrocardiograph equipment and computed tomography scanners, or they might work on security systems. In addition, instrumentation engineers have been essential to the success of every aeronautical research project ever flown. Instrumentation engineers might be employed by manufacturing firms, defense contractors, biomedical companies, or government entities; or they might work for private engineering firms.Responsibilities typically include: preparing and agreeing project budgets, timescales and specifications with clients and managers undertaking relevant research producing and implementing designs creating test procedures testing, evaluating, modifying and calibrating products and instruments writing reports and documentation analysing and interpreting data collaborating with a team of scientists and engineers providing technical support.
The Hospitality Management program prepares you for management careers in places such as hotels, restaurants, resorts, and casinos. Creating Unique Experiences for Others Kinesiology Hospitality Management Program Overview Career Opportunities Beyond the Classroom For nearly eighty years, Penn State’s School of Hospitality Management has helped prepare leaders for any segment of the hospitality industry. School of Hospitality Management Hospitality Management Undergraduate Program The Hospitality Management program is globally known for helping students prepare for management careers at hotels, restaurants, resorts, and casinos. Whether you aspire to run a large hotel chain or own your own restaurant, the Hospitality Management program teaches leaders how to: Operate complex hospitality businesses Create innovative contributions to prominent service organizations Lead diverse teams of employees Build a strong work ethic that is recognized throughout the industry Study leadership, business, and communication and tailor your program to meet your career goals. The Hospitality Management program combines excellence in the classroom with hands-on experiences throughout the hospitality industry around the world and interactions with highly engaged alumni and industry leaders. Exceptional attention is given to students’ course work in the business of hospitality. During the program you will gain content knowledge; analytical, interpersonal, and organizational skills; and professional experience needed for success in the hospitality industry.
The students can learn different regular subject besides their Technical Classes.There are include different subjects in non-technical department- Bangla, English, Mathematics, Social Science,Businesses Organizations And Accounting.From this students can increase their knowledge more in their job sector.