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980601 - A1
Class - IX
·¤ÿææ - IX
SCIENCE
çߙææÙ
Time : 3 to 3½ hours
â×Ø Ñ 3 âð 3½ ƒæ´ÅðU
Maximum Marks : 80
¥çÏ·¤Ì× ¥´·¤ Ñ 80
Total No. of Pages : 16
·é¤Ü ÂëcÆUæð´ ·¤è ⴁØæ Ñ 16
General Instructions :
1.
The question paper comprises of two sections, A and B you are to attempt both the sections.
2.
All questions are compulsory.
3.
There is no overall choice. However, internal choice has been provided in all the three questions
of five marks category. Only one option in such question is to be attempted.
4.
All questions to section A and all questions of section B are to be attempted separately.
5.
Question numbers 1 to 4 in section A are one mark questions 6. These are to be answered in
one word or one sentence.
6.
Question numbers 5 to 13 are two mark questions, to be answered in about 30 words.
7.
Question numbers 14 to 22 are three mark questions, to be answered in about 50 words.
8.
Question numbers 23 to 25 are five mark questions, to be answered in about 70 words.
9.
Question numbers 26 to 41 in section B are multiple choice questions based on practical
skills. Each question is a one mark question. You are to choose one most appropriate response
out of the four provided to you.
10. An additional 15 minutes time has been allotted to read this question paper only.
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1
P.T.O.
SECTION - A
1.
State the reason of introducing Italian bee variety in bee farms.
1
2.
“The wool being knitted into a sweater is a physical change.” Justify the statement.
1
3.
State the meaning of uniform circular motion.
1
4.
What is meant by free fall ?
1
5.
What is meant by the term ‘green manure’ ? State its role in agriculture.
2
6.
A cyclist travels a distance of 4 km from P to Q and then moves a distance of 3 km at
right angle to PQ. Find his resultant displacement graphically.
2
7.
State two functions of Vacuoles in a plant cell.
2
8.
What would happen if a fielder stops the fast moving ball suddenly ? Justify your
answer.
2
9.
The concentration of a salt solution in terms of mass by mass percentage is 20% and the
mass of the solution is 550 g. Determine the mass of solute present in the solution.
2
10.
A stone is dropped from the roof of a building. It takes 4s, to reach the ground. Find
the height of the building. (g59.8 m/s2)
2
11.
List two characteristics of cork cells which help them to function as protective tissue ?
2
12.
A bus decreases its speed from 80 km/h to 50 km/h in 4s. Find the acceleration of the
bus.
2
13.
Compare in tabular form the properties of a true solution and colloids with respect to
Tyndall effect and stability.
2
14.
What can you conclude about the motion of a body depicted by the velocity- time
graphs (i), (ii) and (iii) given below :
3
,
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2
15.
What is composite fish culture system ? State one merit and one demerit of such a
system.
3
16.
(a)
(b)
3
17.
A gas jar containing air is placed upside down on a gas jar of bromine vapour. It is
observed that after some time, the gas jar containing air also becomes completely reddish
brown.
(a) Explain why this happens.
(b) Name the process involved.
3
18.
When do we use the process of centrifugation ? State the principle involved in this
process ? List its any two applications in our daily life.
3
19.
What is manure ? How is it prepared ? State its role in changing the quality of soil of
a field having excess of :
(i)
Sand
(ii) Clay
3
20.
A ball thrown vertically upwards rises to a height of 20 m. Calculate :
(i)
the velocity with which the ball is thrown upwards and
(ii) the time taken by the ball to reach the highest point. (g510 m/s2)
3
21.
Make a table to show the difference between Striated, Unstriated and Cardiac Muscles
on the basis of their structure and location in the body.
3
22.
What happens to the Gravitational force between two objects if :
(a) the mass of one object is doubled.
(b) the distance between the objects is doubled.
(c) the masses of both the objects are doubled.
Give reason in each case.
3
23.
(a)
(b)
(a)
(b)
Why do we jerk wet clothes before spreading them on clothes line ?
The fruits fall off the branches when a strong wind blows. Give reason.
State Newton’s 1st and 3rd law of motion.
A car of mass 1800 kg moving with a speed of 10 m/s is brought to rest after a
covering a distance of 50m. Calculate the force acting on the car.
OR
State Newton’s second law of motion. Use this law to find a method to measure
force acting of on an object.
From a rifle of mass 4kg a bullet of mass 50kg is fired horizontally with an initial
velocity of 40 ms21. Calculate the initial recoil velocity of the rifle.
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5
P.T.O.
24.
(a)
(b)
Draw a neat diagram of a plant cell and label the following parts :
(i)
Cell Wall.
(ii)
Nucleus.
(iii)
Vacuole.
(iv)
Golgi apparatus.
5
Name the energy currency of the cell. Which cell organelle releases this
currency ?
OR
25.
(a)
What are lysosomes ? Why are they called “suicide bags of a cell” ?
(b)
What happens to the dry raisins when we put them in plain water for some
time ? State the reason for whatever is observed. What would happen if these
raisins are not placed in concentrated salt solution ?
Compare in tabular form properties of Solids, Liquids and Gases with respect to :
(i)
Shape
(ii)
Volume
(iii)
Compressibility
(iv)
Diffusion
(v)
Fluidity or Rigidity
5
OR
(i)
What is meant by evaporation of a liquid ? Water kept in an earthen pot become
cool during summer. Why ?
(ii)
With the help of a labelled diagram describe in brief an activity to show sublimation
of ammonium chloride.
SECTION - B
Choose the most appropriate option out of the four choices (A), (B), (C), (D) provided
to you :
26.
27.
An example of suspended particles in a mixture is :
(A)
Soap in water
(B)
Milk in water
(C)
Alcohol in water
(D)
Sawdust in water
The colloidal solution is where both the dispersed phase and the dispersion medium
are liquid, is :
(A)
milk churned with water
(B)
Butter
(C)
Shaving cream
(D)
Starch solution in water
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1
1
28.
For the separation of ammonium chloride from a mixture, the experimental set up is
shown in figure :
(A)
A
29.
How
(A)
(B)
(C)
(D)
do you separate a mixture of sulphur, iron filings and salt ?
Use magnet, dissolve in water, filter and crystallize.
Use magnet, filter, decant and crystallize.
Dissolve in water, filter, crystallize, decant.
Decant, crystallize, filter and dissolve in water.
30.
In which of the following sediment will not be observed on standing for some time ?
(A) Chalk powder and water
(B) Albumin and water
(C) Soil and water
(D) Fine sand and water
1
31.
Which of the following will turn blue black when iodine solution is poured over it ?
(A) sugar
(B) butter
(C) potato extract
(D) boiled egg white
1
32.
A student set up an apparatus for the determination of boiling point of a sample of
water supplied to him in his laboratory. He recorded the boiling point as 1028C.
Assuming that the thermometer is accurate, the error in the determined value of boiling
point is due to :
(A) the water may be containing large of amount of dissolved air.
(B) the water may not be distilled.
(C) the bulb of the thermometer is not kept above the water surface.
(D) the bulb of the thermometer is touching the bottom of the vessel containing water.
1
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(B)
B
(C)
5
C
(D)
1
D
1
P.T.O.
33.
Four students A, B, C and D carried out the test for the adulteration of metanil yellow
in arhar dal and recorded their observations as given below. The procedure followed
correctly is that of student. The procedure followed :
Student
(A)
(B)
(C)
(D)
(A)
34.
35.
A
Procedure
5g dal + 5g metanil
yellow
5g dal + 5ml water +
2 drops of HCl
5g dal + 5ml water +
pinch of metanil
yellow
5g dal + 5ml water +
2 drops of HCl
(B)
Observation
Dal turns yellow
Solution turns pink /
magenta
Water turns yellow
Water turns yellow
and then pink
B
(C)
C
Inference
Metanil yellow
present
Metanil yellow
present
Metanil yellow
present
Metanil yellow
absent
(D)
D
Human cheek cells stained in methylene blue and mounted in glycerine were observed
with the help of a compound microscope. The components of the cell which would be
seen are :
(A)
Cell wall, cytoplasm, nucleus
(B)
Plasma membrane, cytoplasm, nucleus
(C)
Plasma membrane, cytoplasm, nucleus, mitochondria
(D)
Cell wall, plasma membrane, cytoplasm, nucleus
Four students A, B, C and D observed parenchyma tissue and drew the following
diagrams.
(A)
A
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(B)
B
(C)
6
C
1
(D)
D
1
1
36.
37.
38.
39.
100 ml of a saturated copper sulphate solution was taken in a beaker. A small amount
of iron filings was added to the beaker and left undisturbed overnight. The mixture
was then filtered to obtain the residue. The colour of the residue was found to be :
(A)
greenish blue
(B)
faint green
(C)
grey
(D)
reddish brown
Striated muscle fibre can be identified by :
(A)
nuclei lying towards the periphery
(B)
star like structure
(C)
cells with tapering ends
(D)
centered nuclei
1
Mixture of ammonium chloride and salt can be separated by :
(A)
dissolving in water and evaporation
(B)
moving a magnet through the mixture
(C)
heating the solid mixture in a china dish covered with inverted funnel
(D)
dissolving the mixture in carbon disulphide
1
The safest method to test the presence of hydrogen gas evolved in a reaction is shown
in figure.
(A)
I
(B)
II
(C)
III
(D)
IV
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7
1
P.T.O.
40.
The following diagram gives the structure of a cell. Identify respectively the part labelled
as A, B and C.
(A)
(B)
(C)
(D)
41.
The
(A)
(B)
(C)
(D)
1
Axon, Dendrite, Cytoplasm
Dendrites, Axon, Cytoplasm
Axon, Nucleus, Cytoplasm
Nucleus, Axon, Cytoplasm
gas evolved when zinc reacts with dilute sulphuric acid is :
colourless, odourless, combustible
colourless, foul smelling, combustible
colourless, pungent smelling, burns with a pop sound
brown coloured, pungent smelling, does not burn
-o0o-
980601 - A1
8
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50km/h
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P.T.O.
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(b)
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(b)
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20.
ª¤ŠßæüÏÚU ª¤ÂÚU Èð´¤·¤è »Øè ·¤æð§ü »ð´Î
20m
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(i)
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(ii)
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980601 - A1
(ii) ç¿·¤Ùè
10
ç×^è ·¤è
3
(g510 m/s2)
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3
(a)
ç·¤âè °·¤ ç‡ÇU ·¤æ ÎýÃØ×æÙ Îæð »éÙæ ãæð ÁæÌæ ãñ?
(b)
ÎæðÙæð´ ç‡ÇUæð´ ·ð¤ Õè¿ ·¤è ÎêÚUè Îæð »éÙè ãæð ÁæÌè ãñ?
(c)
ÎæðÙæð´ ç‡ÇUæð´ ·ð¤ ÎýÃØ×æÙ Îæð »éÙð ãæð ÁæÌð ãñ´?
ÂýˆØð·¤ Âý·¤ÚU‡æ ·ð¤ çÜ° ·¤æÚU‡æ ÎèçÁ°Ð
23.
(a)
‹ØêÅUÙ ·¤æ »çÌ ·¤æ ÂýÍ× ÌÍæ ÌëÌèØ çÙØ× çÜç¹°Ð
(b)
1800kg
5
ÎýÃØ×æÙ ·¤è 10 m/s ·¤è ¿æÜ âð »çÌ×æÙ ·¤æð§ü ·¤æÚU 50m ÎêÚUè ¿ÜÙð ·ð¤ Âà¿æÌ çßÚUæ×
¥ßSÍæ ×ð´ ¥æ ÁæÌè ãñÐ ·¤æÚU ÂÚU Ü»Ùð ßæÜæ ÕÜ ÂçÚU·¤çÜÌ ·¤èçÁ°Ð
¥Íßæ
24.
(a)
‹ØêÅUÙ ·¤æ »çÌ ·¤æ çmÌèØ çÙØ× çÜç¹°Ð §â çÙØ× ·¤æ ©ÂØæð» ·¤ÚU·ð¤ ç·¤âè ç‡ÇU ÂÚU Ü»Ùð ßæÜð
ÕÜ ·¤è ×æ ·¤è çßçÏ ™ææÌ ·¤èçÁ°Ð
(b)
4kg
(a)
ç·¤âè ÂæΠ·¤æðçàæ·¤æ ·¤æ SߑÀU ¥æÚðU¹ ¹è´¿·¤ÚU ©â ÂÚU çِÙçÜç¹Ì Öæ»æð´ ·¤æð Ùæ×æ´ç·¤Ì ·¤èçÁ°Ð
(b)
ÎýÃØ×æÙ ·¤è ç·¤âè ÚUæ§È¤Ü âð 50g ÎýÃØ×æÙ ·¤è ·¤æð§ü »æðÜè 40ms21 ·ð¤ ¥æÚUçÖ·¤ ßð» âð
ÿæñçÌÁÌÑ Îæ»è ÁæÌè ãñÐ ÚUæ§È¤Ü ·ð¤ ¥æÚUçÖ·¤ ÂýçÌÿæðÂ‡æ ·¤æ ßð» ÂçÚU·¤çÜÌ ·¤èçÁ°Ð
(i)
·¤æðçàæ·¤æ çÖçžæ
(ii)
·ð¤‹Îý·¤
(iii)
ÚUâÏæÙè
(iv)
»æòËÁè ©Â·¤ÚU‡æ
5
·¤æðçàæ·¤æ ·¤è ª¤Áæü ×éÎýæ (energy currency) ·¤æ Ùæ× çÜç¹°Ð ·¤æñÙ âæ ·¤æðçà淤活 §â ×éÎýæ ·¤æð ÂýÎæÙ
·¤ÚUÌæ ãñ?
¥Íßæ
(a)
Üæ§âæðâæð× €Øæ ãñ´? §âð ÒÒ·¤æðçàæ·¤æ ·¤è ¥æˆ×ƒææÌè ÍñÜèÓÓ €Øæð´ ·¤ãæ ÁæÌæ ãñ?
(b)
€Øæ ãæðÌæ ãñ ÁÕ ã× âê¹è ç·¤àæç×àææð´ ·¤æð âæÎð ÁÜ ×ð´ ·é¤ÀU â×Ø ·ð¤ çÜ° ÚU¹ ÎðÌð ãñ´? ¥æ Áæð Âðýÿæ‡æ
·¤ÚUÌð ãñ´ ©â·¤æ ·¤æÚU‡æ çÜç¹°Ð ¥Õ ØçÎ §Ù ç·¤àæç×àææð´ ·¤æð âæ´Îý Ù×·¤ ·ð¤ çßÜØÙ ×ð´ ÚU¹ Îð´ Ìæð €Øæ
ãæð»æ?
980601 - A1
11
P.T.O.
25.
çِÙçÜç¹Ì âð â´Õ´çÏÌ ÆUæðâæð´, Îýßæð´ ÌÍæ »ñâæð´ ·¤è çßàæðáÌæ¥æð´ (»é‡ææð´) ·¤è ÌéÜÙæ âæÚU‡æè ·ð¤ M¤Â ×ð´ ·¤èçÁ° Ñ
¥æ·ë¤çÌ
(i)
(ii) ¥æØÌÙ
(iii) â´ÂèÇ÷UØÌæ
(iv) çßâÚU‡æ
(v) ÌÚUÜÌæ ¥Íßæ ÎëɸÌæ
¥Íßæ
(i)
ç·¤âè Îýß ·ð¤ ßæcÂè·¤ÚU‡æ âð €Øæ ÌæˆÂØü ãñ? »ç×üØæð´ ×ð´ ç×^è ·ð¤ Âæ˜ææð´ ×ð´ ÖÚUæ ÁÜ àæèÌÜ (Æ´UÇUæ)ãæð ÁæÌæ
ãñÐ €Øæð´?
(ii) Ùæ×æ´ç·¤Ì ¥æÚðU¹ ·¤è âãæØÌæ âð ¥×æðçÙØ× €ÜæðÚUæ§ÇU ·ð¤ ª¤ŠßüÂæÌÙ ·¤æð ÎàææüÙð ·ð¤ çÜ° ç·¤âè ç·ý¤Øæ·¤ÜæÂ
·¤æ â´ÿæð ×ð´ ߇æüÙ ·¤èçÁ°Ð
5
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¥æ·¤æð çΰ »° ¿æÚU çß·¤ËÂæð´ (A), (B), (C) ÌÍæ (D) ×ð´ âð âÕâð ©ç¿Ì çß·¤Ë ·¤æð ¿éçÙ° Ñ
26.
ç·¤âè çןæ‡æ ×ð´ çÙÜçÕÌ ·¤‡ææð´ ·¤æ ©ÎæãÚU‡æ çِÙçÜç¹Ì ×ð´ âð ·¤æñÙ âæ ãñ?
(B) ÁÜ ×ð´ ÎêÏ
(A) ÁÜ ×ð´ âæÕéÙ
(C) ÁÜ ×ð´ °ðË·¤æðãæòÜ
(D) ÁÜ ×ð´ Ü·¤Ç¸è ·¤æ ÕéÚUæÎæ
1
27.
Ùè¿ð çΰ ·¤æðÜæ§ÇUÜ çßÜØÙæð´ ×ð´ ßã ·¤æðÜæ§ÇU ·¤æñÙ âæ ãñ çÁâ×ð´ ÂçÚUçÿæŒÌ ÂýæßSÍæ ÌÍæ ÂçÚUÿæð‡æ ×æŠØ× ÎæðÙæð´
Îýß ãñ´ Ñ
(A) ÁÜ ·ð¤ âæÍ çÕÜæðØæ »Øæ ÎêÏ
(B) ׀¹Ù
(C) àæðçß´» ·ý¤è×
(D) ÁÜ ×ð´ SÅUæ¿ü çßÜØÙ
1
28.
ç·¤âè çןæ‡æ âð ¥×æðçÙØ× €ÜæðÚUæ§ÇU ·¤æð ÂëÍ·¤ ·¤ÚUÙð ·¤è ÂýæØæðç»·¤ ÃØßSÍæ ç·¤â 翘æ ×ð´ ÎàææüØè »Øè ãñ?
1
(A)
A
980601 - A1
(B)
B
(C)
12
C
(D)
D
29.
¥æ âËȤÚU, Üæðã ÚðUÌÙ ÌÍæ Ù×·¤ ·ð¤ çןæ‡æ ·¤æð ç·¤â Âý·¤æÚU ÂëÍ·¤ ·¤ÚUÌð ãñ´?
(A) ¿éÕ·¤ ·¤æ ©ÂØæð», ÁÜ ×𴠃ææðÜÙæ, çÙS؋ÎÙ ÌÍæ ç·ý¤SÅUÜè·¤ÚU‡æ
(B) ¿éÕ·¤ ·¤æ ©ÂØæð», çÙS؋ÎÙ, çÙÍæÚUÙæ ÌÍæ ç·ý¤SÅUÜè·¤ÚU‡æ
(C) ÁÜ ×𴠃ææðÜÙæ, çÙS؋ÎÙ, ç·ý¤SÅUÜè·¤ÚU‡æ, çÙÍæÚUÙæ
(D) çÙÍæÚUÙæ, ç·ý¤SÅUÜè·¤ÚU‡æ, çÙS؋ÎÙ, ÁÜ ×𴠃ææðÜÙæ
1
30.
çِÙçÜç¹Ì ×ð´ âð ç·¤â×ð´, ©âð ·é¤ÀU â×Ø Ì·¤ ÚU¹æ ÚUãÙð ÎðÙð ÂÚU, ÌÜÎÅU Ùãè´ çιæ§ü Îð»è Ñ
(B) ¥‡ÇðU ·¤è âÈð¤Îè ¥æñÚU ÁÜ
(A) ¿æ·¤ Âæ©ÇUÚU ÌÍæ ÁÜ
(C) ç×^è ÌÍæ ÁÜ
(D) ×ãèÙ ÚðUÌ ÌÍæ ÁÜ
1
31.
çِÙçÜç¹Ì ×ð´ âð 緤ⷤæ Ú´U», ©â ÂÚU ¥æØæðÇUèÙ çßÜØÙ ÇUæÜð ÁæÙð ÂÚU, ÙèÜæ ·¤æÜæ ãæð ÁæÌæ ãñ?
(B) ׀¹Ù
(A) ¿èÙè
(C) ¥æÜê ·¤æ çÙ¿æðǸ
(D) ©ÕÜ𠥇ÇðU ·¤è âÈð¤Îè
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32.
·¤æð§ü ÀUæ˜æ ¥ÂÙè ÂýØæð»àææÜæ ×ð´ ©âð çΰ »° ÁÜ ·ð¤ Ù×êÙð ·¤æ €ßÍÙæ´·¤ ™ææÌ ·¤ÚUÙð ·ð¤ çÜ° ©Â·¤ÚU‡æ ÃØßçSÍÌ
·¤ÚUÌæ ãñÐ ßã ÁÜ ·¤æ €ßÍÙæ´·¤ 1028C ÙæðÅU ·¤ÚUÌæ ãñÐ Øã ×æÙÌð ãé° ç·¤ ©â·¤æ Í×æü×èÅUÚU ÂçÚUàæéh ãñ, ©â·ð¤
mæÚUæ €ßÍÙæ´·¤ ·¤è ×æ ×𴠘æéçÅU ·¤æ ·¤æÚU‡æ Øã ãæð â·¤Ìæ ãñ ç·¤ Ñ
(A) ÁÜ ×ð´ ¥ˆØçÏ·¤ ×æ˜ææ ×ð´ ßæØé ƒæéÜè ãæð,
(B) ÁÜ ¥æâéÌ Ù ãæð
(C) Í×æü×èÅUÚU ·ð¤ ÕËÕ ·¤æð ÁÜ ·ð¤ ÂëcÆU ·ð¤ ª¤ÂÚU Ù ÚU¹æ »Øæ ãæð
(D) Í×æü×èÅUÚU ·¤æ ÕËÕ, çÁâ ÕÌüÙ ×ð´ ÁÜ ©ÕÜ ÚUãæ ãñ ©â·¤è ÌÜè ·¤æð SÂàæü ·¤ÚU ÚUãæ ãæðÐ
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33.
¿æÚU ÀUæ˜ææð´, A, B, C ÌÍæ D, Ùð ¥ÚUãÚU ·¤è ÎæÜ ×ð´ ×ðÅñUçÙÜ ØÜæð´ ·¤è ç×ÜæßÅU ·¤è Áæ´¿ ·ð¤ çÜ° ÂÚUèÿæ‡æ ç·¤°
¥æñÚU ¥ÂÙð Âðýÿæ‡æ §â Âý·¤æÚU ÙæðÅU ç·¤°Ð ç·¤â ÀUæ˜æ Ùð âãè çßçÏ ¥ÂÙæØè?
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5g µÍà + 5g ¾×¬<Ø ÎÀÿÃÍ×
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5g µÍà + 5ml
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A
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5g µÍà + 5ml ¨Ã +
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B
(C)
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34.
35.
×ðçÍÜèÙ ŽËØê âð ¥çÖÚ´UçÁÌ ÌÍæ ç‚ÜâÚUèÙ ×ð´ ¥æÚUæðçÂÌ ×æÙß ·¤ÂæðÜ ·¤æðçàæ·¤æ¥æð´ ·¤æ Âðýÿæ‡æ â´Øé€Ì âêÿ×Îàæèü
·¤è âãæØÌæ âð ç·¤Øæ »ØæÐ ·¤æðçàæ·¤æ ·ð¤ Îð¹ð ÁæÙð ßæÜð ¥ßØß ãñ´ Ñ
(A)
·¤æðçàæ·¤æ çÖçžæ, ·¤æðçàæ·¤æÎýÃØ, ·ð¤‹Îý·¤
(B)
ŒÜñ•×æ çÛæËÜè, ·¤æðçàæ·¤æÎýÃØ, ·ð¤‹Îý·¤
(C)
ŒÜñ$’×æ çÛæËÜè, ·¤æðçàæ·¤æÎýÃØ, ·ð¤‹Îý·¤, ×æ§ÅUæð·¤æòç‹ÇþUØæ
(D)
·¤æðçàæ·¤æ çÖçžæ, ŒÜñ•×æ çÛæËÜè, ·¤æðçàæ·¤æÎýÃØ, ·ð¤‹Îý·¤
¿æÚU ÀUæ˜ææð´, A, B, C ß D, Ùð ÂñÚðU‹·¤æ§×æ ª¤Ì·¤ ·¤æ Âðýÿæ‡æ ·¤ÚU·ð¤ Ùè¿ð çΰ »° ¥æÚðU¹ ¹è´¿ðÐ ç·¤â ÀUæ˜æ ·¤æ
¥æÚðU¹ âãè ãñ?
(A)
36.
37.
A
(B)
B
(C)
C
(D)
ãçÚUÌæ× ÙèÜæ
(B)
Ïé´ÏÜæ ãÚUæ
(C)
ÏêâÚU
(D)
ÚU€ÌæÖ ÖêÚUæ
ÚðUç¹Ì Âðàæè ̋Ìé ·¤è Âã¿æÙ ç·¤â·ð¤ mæÚUæ ·¤è ÁæÌè ãñ?
(A)
Õæs âÌã ·¤è ¥æðÚU çSÍÌ ·ð¤‹Îý·¤æð´ âð
(B)
ÌæÚUæð´ Áñâè â´ÚU¿Ùæ¥æð´ âð
(C)
àæé‹ÇUæ·¤æÚU çâÚUæð´ ßæÜè ·¤æðçàæ·¤æ¥æð´ âð
(D)
·ð¤ç‹ÎýÌ ·ð¤‹Îý·¤æð´ âð
980601 - A1
14
1
D
ç·¤âè Õè·¤ÚU ×ð´ ·¤æòÂÚU âËÈð¤ÅU ·¤æ 100 mL â´ÌëŒÌ çßÜØÙ çÜØæ »ØæÐ §â Õè·¤ÚU ×ð´ ÍæðǸè ×æ˜ææ ×ð´ ÜæðãÚðUÌÙ
ç×Üæ·¤ÚU §âð ÂêÚUè ÚUæÌ §âè Âý·¤æÚU ÚU¹æ ÚUãÙð çÎØæÐ §â·ð¤ Âà¿æÌ çןæ‡æ ·¤æð çÙSØç‹ÎÌ ·¤ÚU·ð¤ ¥ßàæðá ÂýæŒÌ
ç·¤Øæ »ØæÐ §â ¥ßàæðá ·¤æ Ú´U» Íæ Ñ
(A)
1
1
1
38.
¥×æðçÙØ €ÜæðÚUæ§ÇU ÌÍæ Ù×·¤ ·ð¤ çןæ‡æ ·¤æ Âë̀·¤ÚU‡æ ç·¤Øæ Áæ â·¤Ìæ ãñ Ñ
(A) çןæ‡æ ·¤æð ÁÜ ×𴠃ææðÜ·¤ÚU ÌÍæ ßæcÂè·¤ÚU‡æ mæÚUæ
(B) çןæ‡æ ×ð´ ¿éÕ·¤ Èð¤ÚU·¤ÚU
(C) ©ËÅUè ȤÙÜ âð ɸ·¤è ¿æØÙæ çÇUàæ ×ð´ ÆUæðâ çןæ‡æ ·¤æð »×ü ·¤ÚU·ð¤
(D) ·¤æÕüÙ ÇUæ§âËȤæ§ÇU ×ð´ çןæ‡æ ·¤æð ƒææðÜ·¤ÚU
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39.
ç·¤âè ÚUæâæØçÙ·¤ ¥çÖç·ý¤Øæ ×ð´ ©ˆâçÁüÌ ãæ§ÇþUæðÁÙ »ñâ ·¤è ©ÂçSÍçÌ ·ð¤ ÂÚUèÿæ‡æ ·¤è âÕâð çÙÚUæÂÎ çßçÏ ·¤æñÙ
âð 翘æ ×ð´ ÎàææüØè »Øè ãñ?
1
(A)
(B)
(C)
(D)
40.
I
II
III
IV
Ùè¿ð çΰ »° 翘æ ×ð´ ç·¤âè ·¤æðçàæ·¤æ ·¤è â´ÚU¿Ùæ ÎàææüØè »Øè ãñÐ §â×ð´ Ùæ×æ´ç·¤Ì Öæ»æð´ ·ý¤×àæÑ A, B ÌÍæ C
·¤è Âã¿æÙ ·¤èçÁ° Ñ
(A)
(B)
(C)
(D)
1
Ì´ç˜æ·¤æÿæ, ÇðU‹ÇþUæ§ÅU, ·¤æðçàæ·¤æÎýÃØ
ÇðU‹ÇþUæ§Å, Ì´ç˜æ·¤æÿæ, ·¤æðçàæ·¤æÎýÃØ
Ì´ç˜æ·¤æÿæ, ·ð¤‹Îý·¤, ·¤æðçàæ·¤æÎýÃØ
·ð¤‹Îý·¤, Ì´ç˜æ·¤æÿæ, ·¤æðçàæ·¤æÎýÃØ
980601 - A1
15
P.T.O.
41.
ÁÕ çÁ´·¤ ÌÙé âˍØêçÚU·¤ ¥Ü âð ¥çÖç·ý¤Øæ ·¤ÚUÌè ãñ Ìæ𠩈âçÁüÌ ãæðÙð ßæÜè »ñâ ·ñ¤âè ãæðÌè ãñ?
(A)
Ú´U»ãèÙ, »´ÏãèÙ, ’ßÜÙàæèÜ
(B)
Ú´U»ãèÙ, Îé»ü‹ÏßæÜè, ’ßÜÙàæèÜ
(C)
Ú´U»ãèÙ, Ìèÿæ‡æ »´ÏßæÜè, Â栊ßçÙ âð ÁÜÙð ßæÜè
(D)
ÖêÚðU Ú´U» ·¤è, Ìèÿæ‡æ »´ÏßæÜè, Ù ÁÜÙð ßæÜè
-o0o-
980601 - A1
16
1