Category Applied Science & Technology

What are the methods of time measurement?

             Through the ages, man has used many methods of time measurement such as rotation of the earth, rising and setting of the sun, movement of the moon and stars and the change of seasons. Perhaps the earliest measurement of time was based on the regular cycle of night and day. The 24 hour period between one mid night and the next was called the mean solar day.

            Time measurement by the earth’s rotation with respect to the sun is called sidereal time. A sidereal day lasts 23 hours, 56 minutes and 4 seconds. The time the earth takes to complete one revolution around the sun, is called the sidereal year. The sidereal year lasts 365 days, 6 hours, 9 minutes and 9.54 seconds. Sidereal time is more accurate than solar time.

                  The oldest methods for measuring time include sundial, candle clocks, water clocks and hour glasses. In a sun dial, time was measured by the length of the shadow of a stick casted by the sun. With candle clocks, time was measured by the rate of a burning candle. The water clock was a leaking bowl. In the hour glass, sand flowed from one container into another at a steady rate. By measuring the amount of sand in either container, a person could tell how much time had passed.

The development of clocks that worked by springs started in the late 1400. The two main types of modern clocks are – mechanical clocks and electronic clocks. Mechanical clocks are powered by various devices that must be wound while the electronic clocks are battery powered. Quartz based clocks are also battery driven. Most of the quartz clocks which are based on quartz crystal vibrations are accurate upto 60 seconds in a year.

                  Digital clocks and watches which became popular in the 1970s are also very accurate time measuring devices. Most of them have liquid crystal display system or light-emitting diode display system. These are also quartz based.

                 The most accurate means of measuring time is an atomic clock. An atomic clock measures the vibrations of certain atoms of cesium or ammonia gas which keep extremely accurate time. In 1000,000 years an atomic clock may loose or gain only a few seconds. The world time changed to atomic time standard in 1972.

 

What is dry ice?

Ice, which we generally see around us, is made by freezing the water. Water turns into ice when it is cooled to 0°C. There is another kind of ice which is known as dry ice.

Dry ice is solid carbon-dioxide. It is formed when carbon-dioxide turns directly from a gas into a solid at a temperature of about – 80°C. It is so cold that if held in hand it causes frost bite. It is usually prepared by cooling carbon-dioxide under high pressure. It looks rather like snow but can be made into blocks by compressing the flakes. Dry ice is very heavy.

Dry ice is very important for cooling or refrigerating foods such as ice creams and meat and medicines. It is also used to stimulate fog and steam effects in television or stage plays because it rapidly turns back to gas at ordinary temperature without becoming liquid.

 

How do we see clearly with spectacles?

              Wearing a pair of spectacles is a common sight. All men, women and children, who have weak eye-sight, use spectacles. Scientists have developed spectacles that help in seeing both the near and distant objects clearly. Nowadays, lenses are used inside the eyes in place of spectacles. These are known as contact lenses. These lenses can be of different colours and are used by those who do not want to wear spectacles.

              The use of spectacles was started some 700 years ago. In 1266, Roger Bacon of England used a piece of glass to magnify the words written in a book. This glass piece was cut out of a spherical ball of glass. But it is not definitely known as to when glass pieces were used in the form of spectacles.

                     Spectacles are shown on the eyes of one Cardinal Ugon’s portrait made in 1352. This proves that spectacles were developed during the period 1266-1352. By the sixteenth century, they were very much in use. In 1784, Benjamin Franklin brought wonders in the field of spectacles by making bifocal lenses. A question must be coming to your mind as to how do we see clearly with the help of a pair of spectacles?

                     It is so simple. Our eyes act as a camera. The light rays enter our eyes through cornea (black portion of the eye). There is a convex lens inside the eye, and behind this lens there is a screen which is called the retina. The light rays coming from any object make an inverted image of the object on the retina with the help of this lens. This image is carried to the brain by the optic nerve. It becomes erected there. This is how we see an object. If the eyes have no defect, the focal length of this lens gets automatically adjusted and the image of the object always falls exactly on the retina. But, sometimes, the eyes develop some defects due to which the image of the object is formed before or behind the retina. Thus, the object appears blurred. Persons having such eye-defects need the assistance of spectacles. The defects of the eyes are mainly of three types.

 

 

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How does a cordless phone work?

The cordless phone is an FM transmitter/receiver. The frequency range lies between 26.6 and 49.8 MHz A cordless phone essentially converts the audio signals from the telephone line into the FM waves and it is detected by the mobile handset, and vice versa. For security reasons the range is limited to about 100 metres and their power is about 500 milliwatts. Each cordless phone is assigned a particular channel (or frequency range) to avoid interference with nearby instruments. 

Cordless phone is based on wireless transmission and frequency modulation. The main components of a cordless phone are the base unit and the portable unit. While the base unit is kept at a fixed point, connected to power supply and the working telephone line, the portable unit can be carried to a certain distance, depending on the frequency range limitation. Normally in India, the permissible distance is about 100 metres.

 The base unit and the portable unit essentially consist of radio wave transmission and reception devices which enable a two way wireless communication between these units.

The radio waves are broadcast in the air through the antenna fitted to the units. Just like the signals emanating from the telephone are converted to radio frequency in the transmission side, the reverse happens in the receiver side, (i.e.) the radio frequency signals are converted into original signals, bell or speech.

 Since the handset does not have and connecting cord or wire, the name cordless phone.

            

How does a cell phone work?

    In normal telephone exchange systems, a pair of wires extends each telephone instrument to the telephone exchange.

Normally, copper conductors are used to give loop to indicate the exchange that the telephone hand set had been lifted for making a call or for receiving a call. In advanced countries, Optical Fibre is also used or for extending the loop.

When you make a call to your friend who is connected to another exchange, the digits are sent to the exchange to which you are connected, in the form of pulses (break and make of loop) or frequencies.

The originating exchange analyses these digits and establishes a path to the terminating exchange where your friend is connected. Over this path, signals (some of the digits dialed by you and other technical information) are sent in the form of bits or frequencies. 

The terminating exchange analyses and marks your friend’s line and if it is free, a ring is sent to him and ring back tone is sent to you. When the call is answered, metering takes place.

In the cell phone system, there is no permanent wire connection between the instrument and the mobile telephone exchange. The connection between the instrument and mobile exchange is established via an intermediate station called Base Station (BS) where a transmitting tower is erected. The connectivity between the mobile exchange and the BS may be wire and between BS and Cell Phone is a Radio Channel.

The connection between a mobile exchange and another mobile exchange or public telephone exchange is by wire.

 Cell phones are technically called Mobile Station (MS) and its telephone exchange is called Mobile Switching Centre (MSC). The radio channel for both-way voice and control channel for controlling are established between BS and MS whenever required only.                                

A town or an area is divided into smaller areas called Cells. At the centre of the cell, there exists the Base Station (BS). When the MS moves around inside the cell, the signals including voice will be strong. When you use a cell phone to talk to your friend with conventional phone, you will   be connected to the BS over a booth-way Radio channel. From BS to MSC over a copper cable or Optic Fibre cable, from MSC to another Exchange and further to your friend over a copper cable

            As you are moving and when you enter into another cell, old BS reports to MSC that you have left the cell and your signals are weak. Immediately, the MSC orders all other Base stations to search for a new comer (as far as other cells are concerned, you are a new comer).

 The BS which is very near to you reports to the MSC that it has found a new corner with strong signals. The MSC orders the old BS to hand off (you) to new BS. Handing off is done in less than 400 milliseconds. But you do not feel any disturbance in your conversation. You may cross many cells during your long conversation without knowing that so many hands off have taken place. Each cell phone is associated with a unique identity stored in Subscriber Identity Module (SIM). This identity is sent to MSC through Base Station when ‘Send’ button is pressed.

The MSC analyses this and validates as to whether cell phone is authorized to make a call. If yes, the call will be put through. When there is an incoming call to the MS, first it is received by the MSC. MSC analyses the received information that contains the MS number also. This number is paged in all cells. If the MS is kept powered on, a page response is received on the control channel from the MS. A voice channel is allotted by MSC. BS and MS are ordered to tune to that channel. Once tuned through connection information is returned to the caller who gets ring-back tone. Ringing is initiated in the MS. When the MS answers, conversation can start and metering starts in MSC.

Why satellites are always launched from the east coast?

         Earth rotates from west to east causing the Sun, the Moon, stars and other planets rise from east and set in the west. On the surface of the earth each point is moving eastward with respect to an astronaut in space.

            Thus if a rocket is launched at a small angle eastward vertically the speed of earth gets added to the rocket’s speed. This reduces the amount of fuel required. If the rocket is inclined along any other direction, the speed of the earth gets subtracted from the speed of rocket and will necessitate burning of more fuel.

            In addition, in case of any failure during launch the rocket will fall back to the earth. Hence if it is launched from the east coast, the rocket will fall into the sea only. If it is launched from the west coast, in case of failure, the rocket will fall on the land endangering human habitats. Thus choosing eastward inclination is scientific but choice of eastern coast concerns safety.