Pharmaceutical Chemistry

 Pharmaceutical chemistry department is a dynamic academic wing of pharmacy education that imparts knowledge to students about the chemistry of pharmaceutical substances and their applications in the field of pharmacy. The study of pharmaceutical chemistry encompasses the fundamental life-related pharmaceutical substances and their chemical interactions with life, using organic chemistry, inorganic chemistry, physical chemistry, medicinal chemistry, analytical chemistry and biochemistry as a base, upon which is built a wide range of research fields.

                                       

The pharmaceutical chemistry department efficiently moulds the students to integrate all aspects of chemistry into diverse pharmaceutical & medical sciences research. Each laboratory of the pharmaceutical chemistry department is involved in the research related to drug discovery and development.

Pharmaceutical chemistry is the study of drugs, and it involves drug development. This includes drug discovery, delivery, absorption, metabolism, and more. There are elements of biomedical analysis, pharmacology, pharmacokinetics, and pharmacodynamics. Pharmaceutical chemistry work is usually done in a lab setting.

Pharmaceutical chemistry involves cures and remedies for disease, analytical techniques, pharmacology, metabolism, quality assurance, and drug chemistry. Many pharmaceutical chemistry students will later work in a lab. Pharmaceutical chemistry leads to careers in drug development, biotechnology, pharmaceutical companies, research facilities, and more.
Studying pharmaceutical chemistry allows students to contribute to life-saving remedies, enhance the speed of delivery of new medications, and help others. Pharmaceutical chemistry also includes other branches of study such as pharmacokinetics, pharmacodynamics, and drug metabolism. These are important for learning the effects that drugs have on the body.

International Research Awards on Science, Health and Engineering | April 24-25 2024 | Berlin, Germany

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Wireless Fidelity

What is Wireless Fidelity?

Wi-Fi itself refers to the popular wireless network technology which enables a Wireless Local Area Network, or WLAN. We know that the gadgets we use every day like mobile phones, laptops, smart TVs, etc., all have Wi-Fi capabilities. What this means is that these devices support frequencies at both 2.4 GHz and 5 GHz bandwidths. These frequencies are distinct from those used for phone, TV, and radio signals to prevent interference.

                                                  

The term Wi-Fi was coined by a brand-consulting company called Interbrand in 1999 for the company promoting the technology called Wi-Fi Alliance as a more memorable name as compared to the technical name “IEEE 802.11”. The accidental association between the two was formed when Wi-Fi Alliance released a piece of communication containing a tagline for Wi-Fi which read: “The Standard for Wireless Fidelity”. This was just a promotion attempt by the company to make it easier for the home market to understand what Wi-Fi meant. What ended up happening, however, was that people came to believe that Wi-Fi in fact stood for Wireless Fidelity.

Wi-Fi Alliance has since retracted this tagline and offered clarification but they are choosing to focus on their successful popularisation and acceptance of Wi-Fi as a term. So while Wi-Fi and Wireless Fidelity are close relatives of each other, their meanings are not exactly the same.

Internet of Things (IoT)

The devices and gadgets that surround us have already become an indispensable part of our lives. But technology is at its best when it’s out of your way. This is where the Internet of Things as a concept shines on full display. An interconnected web of your devices all communicating with each other seamlessly has started to become a reality. The advent of Wi-Fi 6 means more and more devices will be able to get connected with each other and the exchange of information between them will get quicker and quicker.

Smart Cities

A robust data network enabling fast Wi-Fi speeds bodes well for the development of smart cities across the country. There is expected to be a dramatic improvement in living conditions through access to services and fast communication. Building and traffic management, along with utilities such as water and waste management are set to benefit.

International Research Awards on Science, Health and Engineering | April 24-25 2024 | Berlin, Germany

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Electrical Engineering

Electrical engineering is the field that develops electrical systems, equipment, and devices. Electrical engineers design complex electrical systems and also look after their maintenance. With tremendous technological advancements today, electrical engineers work in diverse industries including household appliance designing and manufacturing, power transmitters, electrical power structures, and even complex satellite communication devices. Electrical engineers are required to undergo intense training and skill-development to be able to work in these industries.

                                                      

Let’s take a look at the top career insights for electrical engineering graduates:
Electrical Engineering Courses

There are a number of undergraduate electrical engineering courses you can pursue to make it as an electrical engineer. Here are the most popular undergraduate electrical engineering courses:
Diploma in Electrical Engineering

Eligibility Criteria:

Candidates must complete class 10th with 40% aggregate marks from a recognised educational board. They should opt for Mathematics and Physics as compulsory subjects.
B.Tech in Electrical Engineering

Eligibility Criteria:

To qualify for this program, candidates have to complete 10+2 with Physics, Mathematics, and Chemistry as compulsory subjects. Candidates should score 50% aggregate marks to qualify for this program.

Top Job Opportunities for Electrical EngineersElectrical Engineer: An electrical engineer can be hired at different industries that undertake designing, producing, and manufacturing electrical equipment.
Telecommunications Engineer: Telecommunications engineers are tasked with managing the transmission of information through optic fibre or cable wiring.
Power Engineer: These engineers are tasked with designing, developing, and maintaining generators, motors, and transformers.
Electrical Design Engineer: As the name suggests, this job profile entails designing and developing electrical systems, and creating prototypes of viable systems for manufacturing.
Micro Electrical Engineer: They are responsible for dealing with micro-fabrication of minute electronic components and circuits.

International Research Awards on Science, Health and Engineering | April 24-25 2024 | Berlin, Germany

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Mechanical Engineering

Mechanical engineering is one of the oldest, broadest, and widely-pursued engineering fields. Despite all the vagaries of the global economic crisis and meltdown, the job market for mechanical engineering continued to stand strong. Nevertheless, many students feel perplexed in choosing mechanical engineering as a profession, as there are so many other alluring career options available today. We, at the Indore Institute of Science & Technology, would like to assure that Mechanical Engineering is an evergreen professional arena and the demand for mechanical engineers in the job market is only going to surge with time. But for those who are contemplating to pursue this degree as their career, it is important you take a glance at the different angles of this stream and know how this field of education can unravel the paths to countless career opportunities.

                                              

The field of Mechanical Engineering is about creating all kinds of mechanical systems for different industries. Technically, this field of study deals with the concepts and principles of physics and mathematics along with engineering.As such, a wide range of industries like automobile, aeronautical, space research, bio-mechanical industry, energy and power, exploration and refining industries, and even agricultural sector can be a place of employment for those with a degree in mechanical engineering.With the rolling of time, the field of mechanical engineering has expanded beyond its boundaries and is becoming more of interdisciplinary in nature.

What Mechanical Engineers Do?

Mechanical engineers play a vital role in the development and working of various products ranging from mechanical equipment/systems to a vast assortment of industrial machinery. The application base for engineers in this field is extremely diverse and broad. Mechanical engineers generally remain involved in the process of designing, testing, manufacturing, installing, operating, and maintaining a wide array of industrial machinery. However, their roles and responsibilities do not remain limited to what we just mentioned above.

As a part of the job, mechanical engineers may be needed to deal with concepts of physics such as mechanics, thermodynamics, robotics, structural mechanics, fluid mechanics, kinematics, and muchmore. These are applied in the process of designing various manufacturing units, motor engines, power plants, heating/cooling systems, and other simple and complex machinery. Apart from these conventional roles and responsibilities, mechanical engineers are also involved in new areas of research and development such as nanotechnology, biomedical applications, and development of composite materials, thus extending the scope of mechanical engineering towards new avenues.

 

International Research Awards on Science, Health and Engineering | April 24-25 2024 | Berlin, Germany

 

Abstract Submission: x-i.me/confshen1

Award Nomination: x-i.me/veershen

Member Nomination: x-i.me/shemem

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