Tuesday 22 January 2013

Model Answers By Students of Secondary School Certificate (X) 2012-Mathematics

Best Answers of Board Examination 2012 (Main)
Best attempted answer by the Candidates of Secondary School/Sr.School Certificate Exam.2012
Class-XII
Class-X






Previous Year Question Papers for Class X/XII (Board Examination 2012) 


For  More Information  http://www.cbse.nic.in

Monday 21 January 2013

Optional Exercise – 13.5 - 10th Mathematics –Surface area and Volume

Question 1:  A copper wire, 3 mm in diameter, is wound about a cylinder whose length is 12 cm, and diameter 10 cm, so as to cover the curved surface of the cylinder. Find the length and mass of the wire, assuming the density of copper to be 8.88 g per cm3.

Solution:  It can be observed that 1 round of wire will cover 3 mm height of cylinder.

Length of wire required in 1 round = Circumference of base of cylinder= 2pr = 2p  × 5 = 10p
Number of round = Height of cylinder/Demeter of wire = 12/0.3= 40 round
Length of wire in 40 rounds = 40 × 10p = 40x10 x3.14=1256cm=12.56m
Radius of wire  = 0.3/2 = 0.15cm
Volume of wire = Area of cross-section of wire × Length of wire = p (0.15)2 × 1256 = 3.14 x 0.0225 x 1256   = 88.736 cm3
Mass = Volume × Density = 88.736 × 8.88 = 787.979 gm
Question 2:  A right triangle whose sides are 3 cm and 4 cm (other than hypotenuse) is made to revolve about its hypotenuse. Find the volume and surface area of the double cone so formed. (Choose value of p as found appropriate.)

 Solution: The double cone so formed by revolving this right-angled triangle ABC about its hypotenuse is shown in the figure.
AC = (32 + 42) = 5 cm      
Area of DABC = ½ x AC x r =1/2 x BC x AB
Þ 5 x r = 3 x 4 Þ 12/5=2.4cm

Volume of double cone = Volume of cone 1 + Volume of cone 2
= 1/3 p r2H  + /3 p r2h = 1/3 p r2 (H  + h)
= 1/3 x 3.14 x  2.4  x 2.4 x  5 =  30.14 cm3
 Surface area of double cone = Surface area of cone 1 + Surface area of cone 2
          = p r L  + p r l  
          = p r ( L + l )
           = 3.14 x 2.4 (4+3) 
            = 3.14 x 2.4 x7 
             = 52.75 cm2
 Question 3:  A cistern, internally measuring 150 cm × 120 cm × 110 cm, has 129600 cm3 of water in it. Porous bricks are placed in the water until the cistern is full to the brim. Each brick absorbs one-seventeenth of its own volume of water. How many bricks can be put in without overflowing the water, each brick being 22.5 cm × 7.5 cm × 6.5 cm?

Solution: Volume of cistern = 150 × 120 × 110 = 1980000 cm3
Volume to be filled in cistern = 1980000 – 129600 = 1850400 cm3
Volume of n bricks = 22.5 × 7.5 × 6.5 = 1096.875
As each brick absorbs one-seventeenth of its volume,
Þ  Volume absorbed by 1 bricks =  1/17 x 1096.875 =64.52

Actual volume of bricks without water = 1096.875 - 64.52 =1032.375

Number of bricks = 1850400/1032.375 =1792.37
Therefore, 1792 bricks were placed in the cistern.

Q 4. In one fortnight of a given month, there was a rainfall of 10 cm in a river valley. If the area of the valley is 97280 km2, show that the total rainfall was approximately equivalent to the addition to the normal water of three rivers each 1072 km long, 75 m wide and 3 m deep.

Solution: Area of the valley, A = 97280 km2
Level in the rise of water in the valley, h = 10 cm = (10/100000) km = (1/10000) km

Thus, amount of rain fall in 14 day = Ah = 97280 km2 × (1/10000) km = 9.828 km3

Amount of rain fall in 1 day = 9.828 /14 = 0.702km3

Volume of water in 3 rivers = length × breadth × height 
= 1072 km × 75 m × 3 m 
= 1072 km × (75/1000) km × (3/1000) km = 0.2412 x3 
= 0.7236 km3
This shows that the amount of rain fall is approximately equal to the amount of water in three rivers.

Question 5:  An oil funnel made of tin sheet consists of a 10 cm long cylindrical portion attached to a frustum of a cone. If the total height is 22 cm, diameter of the cylindrical portion is 8 cm and the diameter of the top of the funnel is 18 cm, find the area of the tin sheet required to make the funnel (see the given figure).
Solution:  Radius (R) of upper circular end of frustum      
=18/2 = 9 cm                                           
Radius (r) of lower circular end of frustum 
= Radius of circular end of cylindrical part    
= 8/2 = 4 cm           
    
Height (H) of frustum 
= 22 − 10 = 12 cm

Height (h) of cylindrical = 10 cm
Slant height (l) of frustum
 = (R-r)2 + H2 =(9-4)2 + 122 =13 cm                                 
Area of tin sheet required = CSA of frustum t + CSA of cylindrical
= p (R+r)l + 2prh = p [{(9+4)x13} + {2x4x10}]=22/7{169+80}=782.57 cm2
Question 6: Derive the formula for the volume of the frustum of a cone

Solution:  Let ABC be a cone. A frustum DECB is cut by a plane parallel to its base. Let R and r be the radii of the ends of the frustum of the cone and h be the height of the frustum of the cone.

In D  ABG and  D ADF, DF||BG
<A = <A and <AGB = <AFD
∴ D ABG ∼ ADF (AA similarity) 
 DF/BG = AF/AG =AD/AB
Þ r/R = H-h/H=L-l/L
Þif r/R = H-h/HÞ H =(Rh/R-r)

Volume of frustum of cone = Volume of cone ABC − Volume of cone ADE
= 1/3xpR2H - 1/3xpr2 (H-h)
 = 1/3p [R2H - r2(H-h)]
= 1/3p [R2(Rh/R-r) - r2{(Rh/R-r)-h}]
= 1/3p [(R3h/R-r) - r2{(Rh –Rh+rh) /(R-r)}]
= 1/3p [(R3h  - r3 h) /(R-r)]
= 1/3ph [(R3  - r3 ) /(R-r)]
= 1/3ph [{(R  - r )( R2  + r2  -Rr)} /(R-r)]
= 1/3ph ( R2  + r2  -R r) 
Further Study links
X Maths Surface Areas and Volumes Test paper-1
X Maths Surface Areas and Volumes Test paper-2




Tuesday 15 January 2013

9th Chapter: Probability based on Deck (Card): Question with Solution


1. Find the probability of drawing a black card.
Answer: 1/2
2. Find the probability of drawing a red  card.
Answer: 1/2
3. Find the probability of drawing either a  red or black.
Answer: 1
4. Find the probability of drawing an ace.
Answer: 1/13
5. Find the probability of drawing either a  jack or queen or king.
Answer: 3/13
6.Find the probability of drawing a black  king.
Answer: 1/26
7. Find the probability of drawing a white queen.
Answer: 0
8. Find the probability of drawing a club.
Answer: 1/4
9. Find the probability of drawing a heart.
Answer: 1/4
10. Find the probability of drawing either a spade or diamond.   
Answer: ½
11.Find the probability of drawing a club  and heart.
Answer: 1/52
12.Find the probability of drawing either a black card or number 10.
Answer:7/13
13.Find the probability of drawing a  number more than 5.
Answer: 5/13
14.Find the probability of drawing a  picture card. (includes jack, queen or king)
Answer: 3/13
15. Find the probability of drawing a red ace.
Answer: 1/26
16. The probability of selecting neither a jack nor an ace from a well-shuffled pack of 52 playing cards is :
Ans: 11/13
17. From a well shuffled pack of cards, a card is drawn at random. Find the probability of getting a black queen.
Answer: 1/26
18. A card is drawn from a well-shuffled pack of 52 cards. What is the probability that it  is an Ace.
Answer: 1/13
19. One card is drawn from a well shuffled deck of 52 cards. Find the probability of getting  a red face card.
Answer: 3/26
20. The king, queen and jack of clubs are removed from a deck of 52 playing cards and the  remaining cards are shuffled. A card is drawn from the remaining cards. Find the probability of getting a card of (i) heart (ii) queen (iii) clubs
Ans: (i) 3/49     (ii)    3/49    (iii)  10/49
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