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Study Of oxalte ion in guava fruit at different stages of ripeningPrince Warade
guava is sweet,juicy,light or dark green coulured fruit.we will learn to test for the presence of oxalate ions in the guava fruit and how its amount varies during different stages of ripening.
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Physics investigatory project for class 12 on the topic " to estimate charge induced on two styro foam / pith balls separated by a distance "
Just change the name and cover page.
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Here's my Physical Education Board Practical File. I hope you find it as useful as it was to me. I constantly got complimented for my file from internal as well as external teachers so I thought of sharing my work with all of you. This file is however of CBSE class 12th 2020-2021 syllabus so it has 'Barrow test' missing.
Class 12 CBSE Biology Investigatory project on the topic "Drug Addiction" which includes the appropriate format and content for the CBSE practical examinations.
TOPIC-To investigate the relation between the ratio of :-1. Input and outpu...CHMURLIDHAR
TOPIC-To investigate the relation between the ratio of :-1. Input and output voltage.2. Number of turnings in the secondary coil and primary coil of a self made transformer.
This is the investigatory project on aids. for biology class 12. or can be used for educational purpose. this covers all important topics with good images. if you like this follow me on my instagram @vishal2782003
PHYSICS INVESTIGATORY PROJECT
AIM:-
CHARGING AND DISCHARGING OF CAPACITORS IN R-C CIRCUIT
PURPOSE
THE GOAL OF THIS PROJECT IS TO verify that 63% charge is stored in a capacitor in an R-C circuit at its time constant and 63% charge remains when capacitor is discharged and hence plot a graph between voltage and time
Physics investigatory project for class 12 on the topic " to estimate charge induced on two styro foam / pith balls separated by a distance "
Just change the name and cover page.
physics all necessary practicals for class 12 cbse. VERY EASY.
ALL THE BEST FOR YOUR FUTURE EXAMS.
AND THIS FILE CAN HELP YOU TO GET 100% PRACTICAL MARKS.
To study various factors on which the internal resistance/EMF dependsaslipranay
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Have a superb boards practical.
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Factors on which the internal resistance/emf of a cell depends
1. Satya Prakash Public School
Physics Project
Topic : Study of various factors on which the
b internal resistance/EMF of a cell b
b depends.
Submitted to : Mr. Rajesh Kaurav
Submitted by : Harsh Solanki [class- 12th
]
2. Certificate
This is to certify that Master Harsh Solanki, a
student of class 12th(science) has successfully
completed his project work under the guidance of
subject teacher Mr. Rajesh Kaurav during the year
2016/2017 from Satya Prakash Public School in
partial fulfillment of physics practicle examination
conducted by CBSE.
______________________________11111111111111111111_________________________________
Teacher In-charge External Examiner
____
Principal School Rubber Stamp00
3. Acknowledgement
The success and final outcome of this project required a
lot of guidance and assistance from many people and I am
extremely fortunate to have got this all along the
completion of my project work. Whatever I have done is
only due to such guidance and assistance and I would not
forget to thank them.
I respect and thank Mr. Rajesh Kaurav, for giving me an
opportunity to do this project work and providing us all
support and guidance which made me complete the
project on time. I would like to express my gratitude
towards Mrs. Rakhi Mukherjee for helping me in
conducting practicals for project.
Last but not the least I would like to thank all my friends
who supported me all the way and my parents who helped
me financially and encouraged me throughout in the
completion of project.
4. 1.
2.
S no.
Introduction
Internal Resistance
Practical Analysis
Objective
Apparatus
Theory
Circuit Diagram
Procedure
Result & Inferences
Precautions
Sources of error
Flowchart Conclusion
Bibliography
INDEX
Topics
3.
4.
5. INTRODUCTION
There is a great need of batteries in our daily use
electronic appliances and the use is increasing every day.
Thus , the batteries need to be made more powerful so
that their potential can be increased greatly .
Thus , this project report is based on practical analysis
for the factors affecting the internal resistance of a
cell.
When the internal resistance of the cell is decreased
we can increase the potential difference across it , and
hence make it more reliable.
6. INTERNAL RESISTANCE
Internal resistance is defined as the resistance offered by the
electrolyte of the cell to the flow of ions.
Its S.I. unit is Ohm (Ω)
For a cell of e.m.f. (E) and internal resistance (r), connected to
an external resistance (R) such that (I) is the current flowing
through the circuit,
E = V + Ir
Internal Resistance r = E–V
O I
7. PRACTICAL ANALYSIS
OBJECTIVE
To study the various factors on which the internal
resistance of a cell depends.
APPARATUS
A potentiometer, a battery (or battery eliminator), two
one way keys, a rheostat, a galvanometer, a resistance
box, an ammeter, a cell (Leclanche cell), a jockey, a
setsquare, connecting wires and sand paper.
THEORY
The internal resistance of a cell is the resistance offered
by its electrolyte to the flow of ions . The internal
resistance of a cell
is directly proportional to the distance between the
electrodes.
8. is inversely proportional to facing surface area of the
electrodes in electrolyte.
decreases with increase in temperature of electrolyte.
is inversely proportional to concentration of
electrolyte.
The internal resistance of a cell is given by:
CIRCUIT DIAGRAM
r = (E-V)/I
9. PROCEDURE
1.Clean the ends of the connecting wires with
sand paper and make tight connections according
to the circuit diagram.
2. Tighten the plugs of the resistance box.
3. Check the e.m.f. of the battery and of the cell and
make sure that e.m.f. of the battery is more than that
of the cell, otherwise null or balance point will not
be obtained.
To study variation of internal resistance with distance of
separation
4.Keep both the electrodes at a distance of 16 cm.
5.Take maximum current from the battery, making
rheostat resistance small.
6.Without inserting a plug in key K2, adjust the
rheostat so that a null point is obtained on the last
wire of the potentiometer.
7. Determine the position of the null point accurately
using a set square and measure the balancing length
(l1) between the null point and the end P.
8.Next introduce plugs in both keys K1 and K2. At the
same time, take out a small resistance (1 – 5 W) from
10. the shunt resistance box connected in parallel with
the cell.
9.Slide the jockey along a potentiometer wire and
obtain the null point.
10. Measure the balancing length (l2) from end P.
Record these observations.
11. Now keep the electrodes 12 cm apart.
12. Then remove the plugs of keys K1 and K2. Wait
for some time and repeat steps 7 to 10.
13. Next, keep the electrodes 9 cm apart to obtain
another set of observations.
To study variation of internal resistance with area of
electrodes
14. Keeping all other factors constant, increase
the area of electrodes in the electrolyte by dipping
them into the electrolyte at different depths for each
observation.
15. Obtain three such observations by
repeating steps 7 to 10. Record your readings.
To study variation of internal resistance with
concentration of electrolyte
11. 16. Keeping all other factors constant, decrease the
concentration of electrolyte by adding distilled water
for different observations.
17. Obtain three such observations by repeating step
7 to 10. Record your readings.
OBSERVATIONS
S.no. Ammeter
Reading
(A)
Position of null point(cm) Shunt
Resistance
R(Ω)
Internal
Resistance
r(Ω)With R
(l1)
Without R
(l2)
1. 0.3 660.5 35.5 1 0.94
2. 0.3 660.5 77.2 2 1.77
3. 0.3 660.5 108.3 3 2.51
Table for effect of separation between electrodes
S.no. Separation
between
electrodes
d (cm)
Balancing
point
Balancing
point
Internal
Resistance
r(Ω)
r/d
l1(cm) l2(cm)
1. 1.2 326.6 276.9 0.456 0.38
2. 2.5 320.7 219.1 0.95 0.38
3. 3.7 660.5 350.9 1.406 0.38
12. Table for effect of temperature
S.no. Temperature
T (o
C)
l1(cm) l2(cm) Resistance
R(Ω)
Internal
Resistance
r(Ω)
Tr
(ΩK)
1. 1.2 326.6 276.9 0.456 0.38 301.44
2. 2.5 320.7 219.1 0.95 0.38 291.96
3. 3.7 660.5 350.9 1.406 0.38 283.87
RESULT & INFERENCES
The Electromotive Force of the cell is constant and
is equal to E = 0.98 Volt.
The internal resistance of a cell is directly
proportional to the separation between the
electrodes.
The internal resistance of a cell is inversely
proportional to the area of the electrodes dipped in
electrolyte.
The internal resistance of a cell is inversely
proportional to the temperature of electrolytes.
The internal resistance of a cell is inversely
proportional to the concentration of the electrolyte.
13. PRECAUTIONS
1.The connections should be neat , clean and tight.
2.The plugs should be introduced in the keys only
when the observations are to be taken.
3.The positive polls of the battery E and cells E1 and
E2 should , all be connected to the terminal at the
zero of the wires.
4.The jockey key should not be rubbed along the wire.
It should touch the wire gently.
5.The ammeter reading should remain constant for a
particular set of observation. If necessary , adjust
the rheostat for this purpose.
SOURCES OF ERROR
1.The auxiliary battery may not be fully charged.
2.The potentiometer wire may not be of uniform cross-
section and material density throughout its length.
3.End resistances may not be zero.
14. Factors Affecting Internal Resistance of a Cell
Distance
between
Electrodes
Area of
Electrodes
Inversely
Proportional
Temperature
of
Electrolytes
Inversely
Proportional
Conc. of
Electrolyte
Inversely
Proportional
FLOWCHART
CONCLUSION
Directly
Proportional