Math is the language of science and nature

Many students may be unaware of innumerable practical applications of math and hence may wonder if the concepts and formulas they were taught in the class have anything to do in real-life. Some feel having the knowledge of basic concepts only is good enough. Students with such attitude are required to broaden their view and understand the composite concepts of mathematics as well. The concepts should not be seen as just remembering some formulas; their practical applications should be explored.

Mathematics is considered as the language of science and is applicable in many ways ranging from basics like counting, managing personal finance, etc., to major complex applications like finding the growth rate of bacteria, population change, prices and inflation change, etc. It teaches the way to think and apply common sense enhancing the logical thinking abilities and decision-making skills.

The abstractness of some concepts like algebra puts brain at work enabling individuals to think laterally which in turn will enhance their abilities to solve other tasks/problems too. A better brain is believed to be built by learning math concepts and solving problems.

While solving a problem, your brain is stimulated to think which will enable its dendrites to grow extensively to connect with other brain cells. The more the problems you solve, more are the analytical skills acquired.

Maths is also considered as the language of nature. It can be observed in the form of Fibonacci pattern in milky-way galaxy, cyclones & hurricanes, plant/tree branches, finger bones, sun flower, pineapple, nautilus shell, etc.

Some students consider math as hard and scary and feel uneasy while solving problems. In such cases parents and teachers are required to play a greater role in encouraging students to overcome math phobia and make the subject exciting and enjoyable for them.

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Schools should generate Intellectuals, not Databases

Many parents and teachers encourage students to store as much data/information as possible in their tiny brains and ask them to replicate what was taught in the class. If they're doing so, then they are just killing creativity in students and preventing them from acquiring new skill sets.

It is imperative on all the parents/teachers community to encourage students to become intellectuals, but not databases. Students remembering much of the data is of little or no use in the current competitive market. Generating innovative ideas with a presence of mind is essential for the current volatile environment.

The conventional education system, which might have had yielded good results in the past, is not good enough for the 21st century. The current conditions demand the need for new learning methodologies which could enable curiosity and creativity in children by allowing them to actively participate in the learning process.

After delivering a session/class on a concept, teachers should explain its real-life applications. For instance after Congruent Triangles concept in Geometry, the teachers should explain where and why they are used. They have application in construction of buildings and bridges to provide stability and strength (Example: Kap Shui Mun Bridge in Hong Kong and such others).

Once the session is complete, teachers should assign a task to students to find few more real-life applications and encourage them to explore why they were used.

This type of learning process would enable student participation and create curiosity in them. Students will spend time to think about the concept and try to play with some ideas which in turn will help them develop lateral thinking and problem solving skills.

It is in this respect, all educational enthusiasts – be it the parents, teachers or school management - should mould students as intellectuals, but not just the repository of content, and help them to do well in school and beyond.

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Tips to excel in science core concepts

Students often worry about how to remember the concepts of science. Though they pay attention in the classroom and adopt various learning methods, they fail to get the desired results. Even if students understand the topics in the class, they fail to retain it because the Human Nervous System doesn't store the relevant information perceiving it as insignificant. If the concept is illustrated with examples and/or real life applicantions, the “insignificant” information would turn “significant”.

To attain excellence in any subject and achieve the desired result, it is imperative to have the knowledge of core concepts along with its real time applications.

Students should implement the study plan in such a way that it should compliment classroom learning of any concept, identifying or observing its applications in real life, and then solving the relevant practice papers.

For instance, you were taught the concept of “Kinematics” in the class today. First off, you would need to understand the concept, then try finding its applications (How Kinematics is applicable in real life like calculating Speed, Velocity, Acceleration of a moving object and such others). Then revise the concept and try solving the relevant problems.

In another example, let us assume that the concept of “Biochemistry” was taught in the class. Identify/find its uses/applications like how it is helpful in real life. You'll come across many examples including “Biochemistry in Medical Applications” and such others.

Once you understand the concepts, try to Read as many relevant examples and applications as possible. This will allow you to get an in-depth knowledge of the concept which in turn will help you remember it.

It is worth recalling a famous quote on education by Martin Luther King, Jr. here, "The function of education is to teach one to think intensively and to think critically. Intelligence plus character - that is the goal of true education."


The emergence of e-Learning technologies has made readers anywhere-anytime access to their desired topics. Learn math and science core concepts with well-illustrated examples and real-life applications here - www.wonderwhizkids.com


Essence of Reading and Writing

We see many video/audio content going viral on WWW (World Wide Web) and asking readers/students to subscribe for such content. Some students are being misguided and attracted that the videos are very interesting and help them stay focused and understand the concept better. If you believe in such a theory, then a famous quote is worth mentioning here.
"Reading is to the mind what exercise is to the body"
I would like to highlight the essence of reading and writing over watching video/audio academic content in this article. Would like to explain the essence in two versions - General and Biological.
General Version: Like exercise helps your body gain strength and resilience, reading makes your brain imagine the scenarios and the consequences that improve your intelligence and thinking ability. 
You wouldn't be using your brain when watching the videos and in fact the ability to imagine new thoughts would be reduced. But reading makes you generate thoughts and ideas relaxing your mind, body and soul while improving your knowledge and wisdom.
When reading and/or during lectures, try to take short notes - you'll find yourself remembering things well enough and in fact better. Short notes enable you to remember important things, while the revised notes would allow you to remember the complete topic.
Biological Version: The human nervous system can be connected into many sub systems and possess separate space for recognizing various functions including video, audio, language and such others with each having its own process. All the functionaries inter-communicate to recognize and remember things. An emotional response would be generated when we look at a video that would then be transmitted to the language space to remember things verbally.

Reading will enable heightened connectivity (even after couple of days) in the left temporal cortex, an area of the brain associated with receptivity for language. You may tend to forget the concept on a later date if you fail to take the notes.

"Noting down" of such conversation/reading bridges the gap between the various bits of information heard/read thus enhancing the chances of remembering the topic.

Note: The advent of innovative technologies including e-books, e-learning and digitalization made readers anywhere-anytime access to many topics/content avoiding the need to carry the books along.
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Future of Pharmaceutical Graduates

Pharmaceutical graduates have bright prospects in the career prospects, with many corporate medical houses and pharmaceutical establishments coming up. The industry is huge with several drugs and forms of medication being introduced in the market each day.
The educational qualifications mostly pursued by students for prospective career in Pharma are Post Graduate Diploma in Pharmaceutical Management, Post Graduate Certificate in Management in Pharmaceutical Management, Executive MBA in Pharmaceutical Management, Advanced Diploma in Pharmaceutical Business Management, and several others, most of which happen to be several postgraduate courses.

Pharma graduates looking to work early are also eligible to make a mark in the industry with various entry-level jobs with a compensation superior to their peers or compatriots in the other domains or sectors.

Pharmaceutical management offers a platform to pursue high-level positions in production, plant management and logistics at several pharmaceutical companies.  An MBA with a Pharmaceutical Management offers a host of opportunities. The graduate prospects are also offered various positions in regulatory bodies.

In addition to the regulatory bodies, academics and research bodies also present a scope of opportunities for pharma graduates. These also include working as toxicologist or eco-toxicologist. The other roles include biomedical analyst and clinical technicians. The pharmaceutical graduates are also capable of developing new products from lab scale to kilo lab followed by bulk production.
Pharmaceutical graduates can pursue a job in related domains as analytical chemist, research scientist or product development/statistician. The process specialist is entrusted with identifying and developing new pharmaceutical manufacturing processes.

Certain positions offered in the pharmaceutical industry are meant fill the vacancies arising from companies’ innovation, rise and expansion to other geographical areas. This calls for more marketing and sales personnel with a pharmaceutical background. The career in pharma for salespersons can provide positions like Hospital Sales Specialist, and medical sales representative.

Pharmaceutical sector is one of well known professional career options in India. The majority of the job opportunities for a graduate in this field are available in a research institute, government department, universities, pharmaceutical industry and teaching hospitals. Pharmaceuticals is a huge industry which constantly requires management specialists for smooth, productive and effective running of their respective firms.

Pharmaceutical Management integrates business strategy with science and technology and the unique perspective of the industry. A management program in this area trains students on  Enterprise Management, Leadership, Advanced Business Concepts.


Pharmaceutical management always needs professional workers; hence there is no lack of employment opportunities in this field. Pharmaceutical management also offers sensible job opportunities for their professionals in terms of business or by opening their own business.  

Terms to Remember Before Starting Your Career in Engineering

After graduating in engineering, students tend to chose either mechanics, civil or electronics career options. These disciplines offer a bounty of benefits through a range of positions representing Career in Engineering.

Engineering degrees equip the aspirants with the skill-sets needed to address the issues of their subsequent positions in the respective domain. A good grasp of math and a clear understanding of physics concepts are required at the professional level. In some cases, physics graduates might qualify to fill engineering positions but this does not happen very frequently.

Engineers ought to be experts in physical sciences involving concepts like motion, force, momentum, velocity, electric potential, magnetism, surface tension and luminosity. The knowledge of all these subjects makes for a true engineering professional who can benefit from opportunities offered by career in engineering.

An engineer needs to be proactive and develop an eye for detail which complements the inherent analytical and quantitative abilities. Some vacancies call for designing solutions to problems, while others are more into technical areas like testing paradigms, involving setup and maintenance.

Several specializations like petroleum offer a fat pay check with desired career in engineering. The average annual compensation, according to studies, stands at $83,000 while mechanical engineers are expected to earn $59,000. Civil engineers are recorded to be earning $52,000 per year.

Aerospace and Aeronautical Engineers also have a high demand in progressive nations which have several space programs and a strong trend for air travel. A flight from San Francisco to New York requires a lot of engineering applications to make it sound and effective.

Engineering jobs and prospects for career in engineering are set to receive a boost, with petroleum, environmental and industrial engineering expected to show strong potential for absorbing job aspirants in the coming decade. The demand for chemical engineers might see a drop, but biomedical engineers would always see the demand intact.

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Chemistry is a Matter of Everything

Chemistry is considered as ‘Central science’, which connects to all of the objects that are encountered in daily lives. Companies in the chemicals sector like plastics and other, regularly look out for individuals who intend to pursue a career in chemistry.

According to an estimate, graduates from the field of chemistry can earn between £185,000 and £190,000 more during a lifetime, than earned by other individuals with more than 2 “A” levels. However, an alarming trend is that those who have Graduated with chemistry switch to a different subject or specialization.

Chemistry graduates in the UK earn around 30% more, a PricewaterhouseCoopers study concluded. For students with a Chemistry specialization after the 10+2 levels, the job market offers a number of opportunities and pay packages.

A Canadian study in Quebec revealed more than 50% of chemistry and Biochemistry BSc graduates were pursuing their studies two years after their graduation at the master's level or were studying another discipline.

There are several legislations affecting career in chemistry, and he companies would be able to retain specialized workforce to deal with their nature of work. This would lead to a strong percentage in the number of chemists in scientific research activities.

As a chemist, one can look out for a professional body or association that holds regular meetings, and you could well bind yourself to that in order to explore more options in the career in chemistry.

Various functions related to R&D and introducing related tests and types of analysis can replace many manual jobs, which are of some concern to budding chemists and laboratory technicians.

These data confirm that a Master's degree is gradually becoming a standard requirement. However, it is notable that a big number of biochemistry graduates are employed as engineers, druggists or chemists.


The chemical industry might demand some additional credentials in the fields of safety, and the maintenance of proper safety measures in various laboratories and on-site locations.