ITG
ITG
ITG stands for Integral Technical Group. This is a group of students of our institute who have joined hands together to work for the common interest of all the students. The main aim of ITG is: development of technical skills in the students. There are many chapters of technical organizations such as ISTE, CSI, MSP and many more in our institute but their functioning has not been up to the mark. ITG shall provide proper and streamlined working of all these chapters with the primary motive of procuring technically sound engineers. It shall provide a basic platform for the students to push themselves to the zenith of success and teach them the essentials to became a leader for life.
Integrated Technical Group (ITG) was founded on 28th March,’08 by the group of Kailash Ganapathi, Aniruddha Shringarpure and Rutvik Upadhyay and now they are supported by other 20-25 members. It has been for the first time that such a technically inclined group has been created in our college. For more information visit itgblog.wordpress.com
Quote of the day
“I find television very educational. Every time someone switches it on, I go into another room and read a good book.” – Groucho Marx
Quote of the day
“Life is real! Life is earnest! and the grave is not its goal; dust thou art, to dust returnest, was not spoken of the soul.” – Henry Longfellow
Quote of the day
“Give a man a fish and you feed him for a day. Teach him how to fish and you feed him for a lifetime.” – Lao Tzu
Quote of the day
“If you love somebody, let them go, for if they return, they were always yours. And if they don’t, they never were.” – Kahlil Gibran
Morph technology
Ever heard the word ‘Morph’. No, then check out this video…it will give you a vision of a future…
Quote of the day
“The saddest aspect of life right now is that science gathers knowledge faster than society gathers wisdom. “ – Isaac Asimov
Electrical Elastance
Electrical Elastance is the inverse of capacitance. The SI unit is the reciprocal farad. Although the term daraf (farad spelled backwards) is sometimes used, this is not approved by SI. Electrical inductor-capacitor-resistor circuits follow differential equations that can be interpreted as representing mass-spring-damper systems. If voltage is taken to be force and current velocity, elastance corresponds to the elastic constant of a spring.
Electromechanical clocks
Electromechanical clocks are those electric clocks that use mechanics to rewind the mainspring via attachment of a motor or an electromagnet.
The configuration of this device is comparatively very simple and reliable. The typical deviation of the electromechanical clock is about 10 seconds per hour and it usually can run for about a year using the energy of the single battery. The electrical current powers either a pendulum or an electromechanical oscillator.
The electromechanical oscillator component has an attached magnet that passes two inductors. When the magnet passes the first inductor or sensor, the simple amplifier opens the current across the second inductor, and the second inductor works as electromagnet, providing an energy pulse to the moving oscillator. This oscillator is responsible for the accuracy of the clock. The electronic part would not generate electrical pulses if the oscillator is absent or does not move. The resonance frequency of the mechanical oscillator should be about several times per second.
Quote of the day
“Take advantage of every opportunity to practice your communication skills so that when important occasions arise, you will have the gift, the style, the sharpness, the clarity, and the emotions to affect other people.” – Jim Rohn.