instruction & amp; operational manual
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Instruction and Operation Manual
Mansingh Visionmeter
Model: vision 2010
Wet Laboratory Chemical Science Experiments for Visually
Challenged
Salt and sugar solutions taste gathers ground for making sense of
molecular structure
Detergents action develops concept of physicochemical properties ofthe water or solvents in general
Molecular structures and physicochemical properties are
fundamental for testing quality of products
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Force behind materializing Visionmeter concept and opening it
to visually challenged as facility to learn wet lab experiments for
creating employment opportunities in testing laboratories
Vision for Visionary people
The Mansingh visionmeter aims to empower and enable differently able people for employment,
respectful place and equality in the society. It is rightly named as VISIONMETER for scientific
equality.
Indeed, it will open new avenues and opportunities to rightly exercise their talent and potential
for Nation building. I consider this instrument a vision for visionary people.
Prof. R.K. Kale
Vice-Chancellor
Central University of Gujarat,
Sector-30, Gandhinagar-382030
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Excellent and Novel Work
In
University-Industry Joint VentureFor
Opening New Windows
Of
Wet Laboratory Chemical Science
Experiments
For
Visually Challenged
Through
Mansingh Visionmeter
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INDEX
SR.NO TOPICS PAGE NO.
01 THEME PAGE Front
02 FORCE BEHIND MANSINGH VISIONMETER 01
03 EXCELLENT AND NOVEL WORK 02
04 INDEX 03
05 INTRODUCTION 03
06 ENVIORNMENTAL CONDITION 03
07 PACKING LIST 04
08 SPECIFICATION 05
09 DESCRIPTION OF KEYPAD 06
10 DESCRIPTION OF REAR PANEL 07
11 DESCRIPTION OF MODES 08
12 INSTALLATION 09
13 OPERATION PROCEDURE 10
14 UTILITY MODE 11
15 ERROR MASSAGES 14
16 GUARANTEE 14
17 SERVICE AFTER SALES 14
18 FLOW CHART 15
19 CONCEPT OF WET LABORATORY CHEMICAL
SCIENCE EXPERIMENTS FOR VISUALLY
CHALLENGED
18-19
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1.INTRODUCTIONThe MANSINGH VISIONMETER is a patented science manufacture by ANALAB SCIENTIFIC
INSTRUMENTS PVT. LTD. VADODARA. The Visionmeter is very useful instrument to measure
viscous flow time and sound frequency of conducting, semiconducting and mildly material in liquidmixtures. It is very much useful to introduce scientific concept for visually challenged and to develop
skill and confidence to undertake wet laboratory experiments for testing quality of soaps, detergents,
baby food and food products, baby soaps, emulsions, colloids, sol gels, inks, shampoos, drugs, oils and
petroleum, diesel, macromolecules, proteins, non-ideal mixtures, molecular interactions. It enables
visually challenged to quantitatively assess polarity of the solvents and impacts of the polarity of the
solvents of industrial products and textile materials, many others.
The MANSINGH VISIONMETER is an extremely easy-to-use instrument with audio output.
2. ENVIRONMENTAL CONDITION
The Instrument can be operated within temperature and relative humidity conditions of 0 C to 55 C
and 5 to 95 % respectively. However an environment comfortable for human habitation (reasonable
constant temperature and humidity conditions) is recommended for optimum performance and
instrument lifetime. The equipment must be kept on vibrationless base and leveled at 900
angle
vertically to ground. In general, a backlight sheet of 4 to 5 mm thickness is recommended as standard
base. During experiment, the base must be free which means that base must not be touched otherwise
the vibrations created by touch affects the results. Proper warming up of equipment by switching on at
least 10 to 15 min before taking reading is recommended
Exposure to corrosive substances (weather gas, liquid or solid) may affect materials and components
used in AquaCal100 and should be avoided.
LOCATION
The Visionmeter requires a conventional laboratory bench of 900 cm. long and 600 cm. width
dimension.
PRE INSTALLATION REQUIREMENT
The Mansingh Visionmeter requires two 5 Amps Electrical Pins (with Proper Earthing), one for
Instrument and the second for Service purpose, one speaker.
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3. PACKING LIST
SR.
NO.
DESCRIPTION QTY
01 MANSINGH VISIONMETER 01 No.02 6 mm PU Tube Length: 1.0 Meter 01 No.
03 Dispenser Tube (Standard Length) 02 Nos.
04 Sample Bottle (Screw neck type) 05 Nos.
05 Box for Sample bottles 01 No.
06 Instruction & Operational Manual 01 No.
07 Warranty Card 01 No.
08 Power Cord 01 No.
09 Set of speakers 01 No.
Head phone 01 No.
UNPACKING PROCEDURE
a. Open the box to indication arrow.b. Take out the bonded Accessories carefully.c. Take out the instrument carefully.d. Install the units according to procedure of installation.
The components of the Visionmeter need focus for alignments and assembling in a most scientific
manner.
The provisions are made to prepare an audio video version of installation procedure to rightly
understand the installation sequence and significance of each and every accessory of the equipment.
It is aimed to skill the users and make them well versed with the science of this machine.
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4. SPECIFICATION
Working Principal : Vacuumed:
Dispensing Volume : Variable from 0 to 25 mL with accuracy of 0.01 mL Display : 20 x 4 Line alphanumeric backlit LCD Key Board : Alphanumeric soft touch key board and Six Push button key Output : Audible Speaker sound for required mL reading & time
consume
Sound Frequency : From 500 to 5000 Hz Time Accuracy : 1 x 10-3 Sec Dispensing by : Stepper Motor Dispensing Discharge unit : Takes out the sample from sample cell
Power Supply : 230 VAC 10 %, 50 Hz. Dimensions : 350 (L) x 240 (W) x 240 (H) mm. Weight : 15 kg. Approx.
These components are most wanted and essential for proper working of the device to produce accurate and
precised results for the viscous flow time.
The electronic specification of the parameters is highly precised and compatible with aligned accessories to
assist most effect and proper working of the machine. The variable volume controller is highly accurately.
The dispensing of the liquid mixture is at constant rate and no fluctuations are permitted in flow rates of the
sample. All the operational accessories with specific technical merits are in a perfect coordination for
facilitating and reproducing the correct results.
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5. DESCRIPTION OF KEYPAD
Mansingh Visionmeter is having TWENTY-THREE keys with 20 x 4 Backlit LCD that are distributed in
three parts and six push button switches. The schematic diagram is depicted in figure given below. The
instructions of operating keys are illustrated in braille.
Figure 1: Schematic illustration of operational keys and result display board in sound mode
The display board consists the following parts.
Part 1: It part consists ELEVEN keys for alphanumeric characters, which help to enter values and names
and other ONE key is to see the RESULT. Pressing RESULT key before going to second sample
measurements can recall the recorded data.
Part 2 consists command keys namely PRINT to give command for Printing, SAVE to save result, ESC to
come out from menu or submenu at any desired or wanted time during measurements, MODE for selecting
different modes, ENTER for confirming or selecting particular command or Value, and FOUR keys which
are used to take character or lines from UP/DOWN or LEFT/RIGHT.
Part 3 consisting of START and STOP keys where one key is scheduled to enter DATE & TIME
Push button keys
Left upper switch : For Start
Left Middle switch : For Result
Left Lower switch : For Washing
Right upper switch : For Stop
Right Middle key : For Time
Right Lower switch : For Help
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6. DESCRIPTION OF REAR PANEL
Figure 2: The figure illustrates rear view of the equipment which has provisions of light on/off keys
and power supply input key for switch on and off of the equipment.
Mains : To connect Mains Power Cord for voltage input
Check Point for
Dispenser Tube : To drain Sample in case of puncture in internal
dispensing tube.
The caution regarding operation of these key is strictly maintained so that user is not exposed to electric
connections. The insulation of non-conducting materials such plastic is ensured till the keys. The
indications of these key are written in braille language in a most user friendly manner. The visually
challenged easily switches on and switches off the equipment.
The visually challenged also learn what is switch on and switch of operation of any individual scientific
equipment and what is electricity which runs the equipment. Since sound is generating in a switch on mode
and the same is not produced in a switch off mode the visually challenged easily understand the meaning of
on and off operation of the machine.
CHECK POINT FORDISPENSER TUBE
LIGHT ON/OFF 2230 VAC 10%, 50Hz
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7. DESCRIPTION OF MODE
Mansingh Visionmeter is having total THREE modes to operate which gives easiness in using the
system. These modes are explained in an easy manner as depicted in the following boxes.
1.
DISPENSING QTY (quantitate): This mode is useful to set dosing quantity of the sample formeasurements.
Press up/down key and particular number key
to select proper mode.
2. UTILITYThis mode is password protected and useful for dispensing validation, to set dispensing speed and to
set equilibrium time for higher accuracy of the measurements.
3. TIME / DATE:The equipment also sets current Date and Time
An easy description of the modes of the equipment assists the visually challenged for understanding
the working and inner science of this machine and hence the result could be accurately obtained.
The attempts are made to simply and to advance the device for inculcating significance of
experimental sciences in the mind of the visually challenged. The visually challenged have beenasked to perform several experiments such as measurements of viscous flow rates of the Millipore
or distilled water in one experiment. In second experiment the salt namely NaCl (sodium chloride)
was added in the same water which was used for previous experiment. The 1% salt was added and
the visually challenged were asked to perform the same experiment. It was surprising that they
easily could distinguish the increments in incorporated in the viscous flow rates and estimated
impact of salt addition to water. These experiments were correlated to impurities present in water
sample if collected from different water sources for use.
Main Menu
(1) DISPENSING QTY
(2) UTILITY
Press Up/Dn/Esc/1/2
Main Menu
(3) DATE / TIME
Press Up/Dn/Esc/3
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8. INSTALLATION
Install the unit in a place, which is free of dust and water vapors. Connect the accessories to
appropriate site. Mount and fix the instrument on a top of the table or similar other platform.
Connect one end of the supplied neat and clean silicon tube to a reaction vessel and other side withamber colored reagent bottle.
If printing is require, then connect a printer cable to parallel port given at backside of the instrument.
Connect AC power cord (Check the mains 230 V AC supply which should have proper Earthing,
voltage between Neutral and Earth should be less than 3 (three) Volts) and switch ON the
instrument from the rear side.
On switching on the instrument from the mains, the instrument starts to display in a sequential
manner listed as under.
Both the manufacturers Name with Model no.
and equipment version are displayed.
The serial Number of Instrument
Manufacturers Name with Model no., date &
time will display.
These operations are essential and reflect systematic working and operations steps for conduct
experiments with the visionmeter. The displays are also audible in a sound form and ascertain the
visually challenged about working condition of the equipment. As initially the user is supposed to
check working condition of the equipment for collecting accurate and precised data of the
physicochemical; properties of the liquid mixture used for measurements.
Analab
Mansingh Visionmeter
xx. abc. xxxx xx : xx
Analab
Mansingh Visionmeter
Model: 20101
Version No. xxxxx
Analab
Mansingh Visionmeter
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9. OPERATION PROCEDURE
Before doing any sample analysis, always feed dispensing quantity in dispensing quantity mode.
Press Mode key and press 1 for dispensing qty.
Set require dispensing/dosing quantity (range
between 1.00 mL to 25.00 mL) and press Enter
Key
Press Esc key to come on main screen
.
Put the input or delivery tube in the sample for which measurements are to be made. Press the
START key to transfer the sample to fill the sample vessel or cell. Once the system is initialized, the
instrument starts giving audio signal followed by audio speech heard clearly. At this point the
system is ready to use for actual analysis. (User has to perform this at the time of change of sample)
Press START key to fill the vessel or cell with
the sample. If in between user has to stop the
sample filling and then press the STOP key,
mL reading comes out and is held and after
pressing START key again, the sample filling
will start at the same level.
Once vessel is filled completely for set value,then the equilibrium time stats or is ON.
When equilibrium time is over, actuator starts
dispensing the liquid in a free flow manner and
records the time till it completely dispenses the
liquid.
Instrument displays time consumed indispensing the prescribed liquid and the same is
announced as an AUDIO output.
SET DOSEING QUANTITY.
XX.XX mL.
Press (1234) / Esc/Ent
Main Menu
(1) DISPENSING QTY.
(2) UTILITYPress Up/Dn/Esc/1/2
DISPENSING OVER
DISPENSED = XX.XX mL
EQUILIBRIUM TIME ON
WAIT = MIN: SEC
DISPENSED = XX.XX mL
Please Wait
DISPENSING START
Please Wait ..
DISPENSED = XX.XX mL
Press ESC / STOP
Main Menu
(1) DISPENSING QTY.(2) UTILITY
Press Up/Dn/Esc/1/2
RESULTDISPENSED = XX.XX mL
MIN. XX:
SECONDS: XX.XXX
Analab
Mansingh Visionmeter
xx. abc. xxxx xx:xx
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10. UTILITY MODE: Under this the following actions are initiated.
Press 2 to enter in utility mode from main
menu.
This mode is password protected as it is use for
instrument dispenser validation purpose only
(Default password is 1234) please change the
same for safety purpose.
10.1. DISPENSING VALIDATION: These steps are performed as under.
Press ENTER to do dispenser validation
Connect outward tube with 10 mL calibrated
cylinder and press Enter.
The liquid dispenses up to 10 mL and then itholds for few moments. By pressing STOP key
the dispensing can stop and restart again in
between at required volume.
Observed reading on cylinder or vessel or cell
and enter cylinder value as actual value.
And press Enter to update new value.
10.2. DISPENSING SPEED: This step is performed in an effective way listed as under.
Dispensing speed can set in this mode.
It displays an existing set speed and can be
changed with help ofUP/DN keys.
UTILITY MODE
(1) ENTER PASSWORD
(2) CHANGE PASSWORD
Press Esc / 1 / 2
UTILITY MODE
(1) DISPENSING
VALIDATION
Press Up/Dn/Esc/Ent
UTILITY MODE
CONNECT ACCESSORIES
CAREFULLY
Press Esc/Ent
UTILITY MODE
Dispensed = xx.xx
Press Stop/Esc/Ent
UTILITY MODE
Dispensed = xx.xx mL
Enter Actual = xx.xx mL
Press Esc/Ent
UTILITY MODE
(2) DISPENSING SPEED
xxxx.x
Press UP / DN /Esc / Ent
Main Menu
(1) DISPENSING QTY.
(2) UTILITY
Press Up/Dn/Esc/1/2
Edit Dispe. Speed = 10
12 = Maximum
01 = Minimum
Press UP / DN / Esc / Ent
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10.3. EQUILIBRIUM TIME: This is materialized as under.
To stabilize the liquid after filling in vessel,
equilibrium time is to be set.
10.4. WASHING PARAMETERS: It is very significant step and operated as under.
To set washing parameters press Enter
To Set Drain Time press Enter
Set Drain Time in sec (0 60 Sec) is executed
with the help ofUp/Dn Keys.
To Set Washing Cycle Press Dn key two times
to come in Washing Cycles setting and press
Enter.
Set Washing Cycle (0 10) with the help of
Up/Dn Keys.
To Set Washing Cycle Press Dn key Threetimes to come in Washing Cycles setting and
press Enter.
Set Washing Qyt in mL (0 50 mL) with the
help ofUp/Dn Keys.
Press Escape key to come out form the mode.
SET EQUILIBRIUM TIME
Set Value min: sec
XX: XXPress UP/DN/Esc /Ent
UTILITY MODE
(4) WASHING
PARAMETERS
Press UP/DN/Esc/Ent
Washing Parameters
1. Drain Time
Press UP / DN /Esc / Ent
Washing Parameters
Edit Drain Time
XX Sec.
Press UP / DN /Esc / Ent
Washing Parameters
2. Washing Cycles
.
Press UP / DN /Esc / Ent
Washing Parameters
Edit Washing Cycles
XX
Press UP / DN /Esc / Ent
Washing Parameters3. Washing Qty. (mL)
.
Press UP / DN /Esc / Ent
Washing Parameters
Edit Washing Qty.
XX ml.
Press UP / DN /Esc / Ent
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11. ERROR MESSAGES: This step flashes few messages if something goes wrong.
MANSINGH Visionmeter gives following massages in case of wrong operation of Instrument.
1 DOSE SHOULD BE > 1 mL: If dispensing quantity is set below 1.00 mL, this massage isdisplayed.
2 DOSE SHOULD BE < 25 mL: If dispensing quantity is set more than 25.00 mL, this massage isdisplayed
3 Washing mL should be more than dose mL + 2: If washing mL is set less than dosing mL, thismassage is displayed (at the time of washing quantity setting).
Caution
Thus the careful operation of the machine is most important and ensures life of the equipment. In
general the visually challenged cant sense this but the messages are audio signal which are easily
caught by the visually challenged. By reading this message the visually challenged can also
understand what are unwanted steps associated with this equipment and how these steps could be
avoided for useful working.
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12. GUARANTEE
This VISIONMETER is guaranteed for a period of 12 calendar months from the date of installation
or 18 calendar months (whichever is earlier) from the date of delivery against defects in material or
workmanship other than valves, semiconductor, electrodes, batteries, PVC & Polycarbonatematerial and others during the guarantee period, our liability is limited to the repair or replacement
at our option of the instrument or parts there of found to be defective.
13. SERVICE AFTER SALES
Utmost care is taken in the design, manufacture, and inspection of all ANALAB makes instruments
to ensure trouble free service for long period. However in case of unsatisfactory performance of any
of our instruments please contact our distributor for your area through whom the instrument waspurchased under intimation to us.
Manufactured By:
Analab Scientific Instruments Pvt. Ltd.Plot No. 361, Sayajimarket,
N.H.No.8 By-Pass
At and Post: Sayajipura
Vadodara390019 Gujarat (India)
: 91-265-2786947 : 91-265-2794507E-mail:info@analabinstruments.com
mailto:info@analabinstruments.commailto:info@analabinstruments.commailto:info@analabinstruments.commailto:info@analabinstruments.com -
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MANSINGH VISIONMETERFLOW CHART
REGULATED
POWER SUPPLY
KEY PAD BRAIL KEYS
CONTROLLER
DISPENSER
DRIVER
DISPLAY SPEECH OUTPUT VESSEL DRAIN
AC MAINS
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Concept of Wet Laboratory Chemical Science Experiments for Visually Challenged
Everyone eats food, drinks water, juices, puts up clothes on the body, cleans teethes with toothpaste, washes
clothes with detergents, takes bath with soaps, adds sugar to tea or milk and salts noted as sodium chloride
to food items. Almost everyone cooks food in kitchen using cooking gas and everyone senses what is hot
and what is cold where the hot or cold concepts constitute an interesting science noted as the
thermodynamics. The water and cooking gas are taken in bucket of solid walls and gas cylinder of solid
walls respectively. The above mentioned science is sufficient to provide a supporting ground to visually
challenge to understand the science and technology being applied in daily use. The food, juice, gas and
others give energy to body and noted as energy sources. The energy sources are molecules made up of
atoms which are attached through bonds. The clothes do not harm body and are noted as biocompatible
materials while the heat and cold harm body and are noted as non-biocompatible properties. Thus the
everyday applications and experiments with the materials do develop the concept of science and
technology. Thereby, the concepts, realization, experience of science in life of visually challenged through
such experiments could be extended to advance their science learning through unbelievable and unthinkable
inventions. The most practical and applied areas which are very familiar to visually challenged do generate
faith in science and encourage to let them know more and more about several sciences and technological
systems. Currently, the visually challenged are not only well aware about recent happenings but are also
potential users of ICT (information communication technology) and computer based other techniques.
Though the ICT gadgets are most safe and noted as dry lab concept (DLC) as the computer key is made upof most biocompatible polymer materials which do not harm the body of the user. The DLC is nice but
there is an urgent need to develop the gadgets to teach science and technology to visually challenge, at least
at a conceptual level. It could be in a form of wet lab concept (WLC) such as dealing with the testing a
quality of water, shampoos and syrups. When the science has become a tool to resolve almost all issues
then why does not the science exposure be given to visually challenge. Of course, the visually challenged
need some real use science through some connecting and interacting interface such as sound that could
connect them to science equipment of wet laboratories for doing some real experiments using the chemicals
and apparatus. For examples, the solubility determination, understanding of dissolution, role of solute and
solvent in ideal and real mixtures with high industrial potential such as herbal, ionic molecular liquid
mixtures. Knitting wheat, maize, barley, oat and other flours with the water and salt is noted as interesting
and daily use formulation for cooking bread and other food items. Similarly the concept of formulations of
industrial mixtures could be taught them excellently and convincingly. Every day, they use toothpaste,
soaps and detergents, oils, clothes, plastic made items. These are chemical products and their quality
matters a lot, therefore such examples manifold the science learning and picking up confidence. Through
these items, these people find science very close to them and in fact consider themselves as frequent user of
scientific processes and products. There are uncountable numbers of the well-known, experienced, tested,
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reliable and fearless points which constitute a concept of daily use sciences in life. Interestingly, there are
several food items which make them take the science and technology as inevitable foundation of the life.
For example, the rice noted as carbohydrate (source of energy for sustaining life), pulses as source of
proteins that repair tissues of body, salts that catalyzes the food molecules such as carbohydrates, proteins
enzymes and others. Also the oils and fats are the most significant food items to sustain life. The salts are
most helpful tools for food processing and digestion which also maintain ionic balance in the body. The
sugar which produces vital energy and is widely used.
Taste as potential test for understanding concept of molecular structure:
The tastes of salt (NaCl) and sugar will define a role of molecular structures that induce specific functions
of the materials. The addition of sugar and salts to the water defines solubility and physicochemical
properties due to their different structures and constituents. Even chemical bonds between atoms in
different molecular structures also vibrate or oscillate with specific frequencies. If these frequencies are
trapped and converted into the sound then such conversion could be an asset to visually challenge to learn
the hardcore chemistry or the materials science. Of course, there are different types of the sounds being
experienced in daily life. Such experiences also define optics and frequency of different sources such as car,
harmonium, flute playing, fighting, storms, raining, talking, weeping, and running tractor on rods and many
others let them know the outside world. Thus the sounds distinguish good mood through the sound of
laughing and bad mood or sorrow through the sound of weeping or crying. Also by putting many clothes on
the body in winter defines a concept insulating materials where the clothes act as insulators of temperature.Non-soluble materials as clothes are washed several times but remain un-dissolved in the detergents and the
water solutions. The detergents are dissolved in the water and their solutions wash or drain out the dust
particles. However, the detergents which are used to wash the clothes are solubilized in the water and wash
the clothes nicely. Such experiences in daily life could develop a concept that the detergents modify the
physicochemical properties of the solvents. The concept also defines that the solutions and solvents
properties are different due to different additive of detergents. The dissolution of the detergents in a very
smaller amount in comparison to the water makes them feel a difference in amounts of the detergents and
the water as the solvent. Thus the detergents are referred to as solute and the water in bucket as the solvent.
The mixtures are obtained on mixing the solute and solvent together and are also noted as the solutions.
Since the water as solvent is used in dissolving the detergents then the resultants mixtures are noted as
aqueous mixtures. The oil which used in daily life is organic solvent or the molecules. The clothes are
degradable and the plastic is non-degradable materials.
Certificate Course: A certificate course in analytical techniques for visually challenged
peopleThis certificate course is aimed to enable visually challenged people for learning basics of chemical
sciences through certain experiments conducted with visionmeter. The viscous flow time (VFT) data
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collected with visionmeter of different mixtures such as ionic, molecular, surfactants, hydrophilic and
hydrophobic molecules such as proteins and others would explain science of industrial formulations. The
course will instill confidence, reorient their minds for science learning and skill for analytical sciences in
academics, research and development. The will open new employment opportunities for them in fields of
formulation and quality testing of daily use products. The Mansingh Visionmeter is indigenously developed
equipment and it has alignment of the VFT with the electronic communication for a response of the
molecules taken in samples. The concept of visionmeter is noted as an excellent innovative idea which
would provide an immense self-confidence in the visually challenged with moderately educated disabled
persons to make them capable and self-reliant. Such awareness and initiatives towards science and
technology will make visually challenged people more competitive with the sighted people in a material
world. The skill which will be achieved through this course would create analytical minds that could be
considered as an example in science disciplines for monitoring the quality assurance and control of daily
use products. Thus, in nutshell the newly devised course curriculum would give new life and direction to
the visually challenged people. Details of course contents are attached here with.
About the course: The major objectives of the programme are to:
Provide comprehensive knowledge to the learners on analytical techniques in chemical sciences
laboratory.
Enable the learners to do quality assessment of daily used commodities.
Generate science and technology awareness, and strengthen their minds to be competitive in
material world. Such efforts and participation in analytical testing will prevent the adulteration of
unwanted materials in daily use items such as food products, soaps and detergents and improve
clinical practices.
Understand potential of analytical techniques being used in wet analytical laboratories.
Create greater scientific awareness about analytical chemistry.
Incorporate idea dreaming and driving attitude and sharpen professional skills.
Fundamental breakthrough for visually challenged to elevate quality of life
The visionmeter is a Scientific Eye for visionless or visually challenged, it works on Molionic Electrostatics
(ME) incorporating IMA and IME, transforming and translating into acoustic dimensions such as sound,
frequency, volume and others. The visionmeter is fabulous science in modern day time to eradicate miseriesof most needy, talented and suffering section of society. It has opened new era, dimension, option of
challenge to think high and face odds, look ahead and sky-high for best survival with new fundamental
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message of Progressive Survival ofthe Struggle (PSS) against century old Survival of the Fittest. The
PSS is leading rather than existing. Agony and atrocities being associated with visually challenged must be
routed out at the earliest as they are gifted with powerful memory, reasoning, deciding wisdom, dreaming
and strong articulating faculties:
The visually challenged have natural talent and potential to accept and implement creative devices
to sustain under all odds. Partly the visionmeter could resolve their hardship and elevate quality of
life and to feel equal and similar to sighted people in daily routines.
The visually challenged are not brought to scientific streams even when they have hidden talent and
keen desire for learning, listening and offering significant contributions to such fields where
dreaming ideas is foundation of success.
If infrastructure and opportunities are given to them for thinking and working on scientific projects,
they can become most competent and could contribute a lot more to society to excel and explore
many more areas and frontiers as asset to the society.
Presently in time of science and technology no infrastructure is given to them except ICT
applications and their talent is not being captured for scientific leaning.
Therefore, there is an urgent need to develop facilities from a most basic levels and visionmeter is
landmark in this direction.
The visionmeter could act as a significant catalyst for channelizing, igniting and triggering their
minds to explore something new if it is given to them for learning and using for QC and QA of
modern day materials.
The visually challenged could generate new applications and ample opportunities of employments
with visionmeter technology. As the visionmeter addresses equality issue and opens new doors to
experimental sciences. The visually challenged are the real dreamers but surprisingly are
marginalized in society. The visionmeter is very useful because it is simple and based on acoustic
concept and automatic in working. The PC could also be attached for further facilitation.
It not only teaches to measure fluid dynamics monitored by hydrogen bonding, ionic and molecular
interactions, unfolding of macromolecules, viscosity but also several other concepts of chemistry
such as how to distinguish between monobasic, dibasic and tribasic acids or salts along valences.
The water binding, drug loading, reacting and interacting features of the molecules.
Fundamentally, it could be an asset to teach chemical kinetics, thermodynamics, hydrolysis,
adsorption, solubility and solubilization, and lot more.
The visually challenged can do QC of detergents, soaps, sol gels, syrups, food items, drinks, dyes,
oils, petroleum and polymers along hydrogen bonding, dimmerization and aggregation etc. which
are depicted over fluid profile of mixtures.
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The visionmeter is easy to handle with safe and closed electronic circuits and electrical for operation
and acoustics. It is fascinating and inspiring, is patented with Govt. of India and calibrated with
Survismeter, a NPL standards. It aims for new gateways and ample employment to especially
visually challenged women to become self-dependent.
Brief outline for operation
As it is aimed to induce, introduce and teach science and technology for the visually challenged, a twelve
tier training modules (TTTM) are available for its best use and developing skill.
TTTM: 1. Introduction and primary awareness of visionmeter. 2. Scientific concepts and configurations. 3.
Working and fundamentals of circuitry sensory for experiments. 4. ME with IMA and IME. 5. Handling
and experimenting skills. 6. Data collection and significance. 7. Accuracy and precision in data. 8. Data
simulation and analysis. 9. Experimental and standard errors analysis. 10. Quality control. 11. Quality
formulation. 12. Simulated sciences for employments.
For developing vibrant hopes and happy moments in life of visually challenged
Sharing science knowledge, engaging in learning process and even talking to them
make them feel equal and important in day today working.
They need special scientific assistance for doing calculation and processing
experimental data for concluding useful information out of their experimental
learning.Formulating simple learning and experiments putting their body parts in different
motions and directions are most effective mode for teaching them science.
For example, spreading their hands in opposite direction with respect to head the
structure of triatomic molecular structure such as CO2, NH3, SO3 and others are taught
them.
References: Man Singh, visionmeter: a novel instrument for teaching chemical sciences to the visuallyhandicapped, Exp. Techn., 32 (2), 5357, 2008.
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Figure 3: The line diagram of complete unit of the mansingh visionmeter.
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