Surface Area And Volume Of A Cuboid And A Cude

Given,

Length of a cuboid =80 cm

Breadth of cuboid = 40 cm

Height of cuboid = 20 cm

So, lateral surface area of cuboid = 2(l+b)h = 2(80+40)×20 = 4800 cm²

Total surface area of cuboid = 2(lb+bh+hl) = 2(80×40+40×20+20×80) = 11200 cm²

Given,

Edge of cube = 10 cm

So, total surface area of cube = 6a² = 6 ×100 = 600cm²

Lateral surface area of cube = 4a² = 4×100 = 400 cm²

Given,

Dimensions of box = 80cm ×40cm×20cm

So,

quantity of paper required by Mary to cover the wooden block is total surface area = 2(80×40+40×20+20×80)

= 11200 cm²

Hence,

number of square sheet of side 40 cm required =

=

Given,

Dimension of room = 5m×4m×3m

Area of walls = 2(l+b)h = 2×9×3 = 54 m²

Area of ceiling = 20m²

So, total area to be whitewashed = 20+54 = 74m²

Hence, cost of whitewashing at rate Rs 7.50 per m² = 7.50×74 = Rs.555

Given,

Let length of an edge of three equal cubes = a

Total surface area of 3 cubes = 3× 6a² = 18a²

(While putting these cubes in a row adjacently, a cuboid is formed)

∴ length of cuboid = 3a

Breadth of cuboid = a

Height of cuboid = a

So,

total surface area of cuboid = 2(3a²+a²+3a²) = 14 a²

Hence,

Given,

Original edge of cube = 4 cm

Original volume of cube = 4³ = 64 cm³

After cutting ,

Edge of cube = 1 cm

Hence volume of new cube = 1³ = 1 cm³

Number of small cubes thus formed =

Hence , total surface area of 64 cubes = 64× 6a² = 64×6 = 384 m²

Given,

Length of a hall = 18 m

Width of hall = 12 m

Sum of area of floor and area of roof = sum of area of four walls

Let height of hall = h m

= l×b+l×b = 2(l+b)h

= 2lb = 2(l+b)h = h =

Given,

Each edge of cubical water tank = 1.5m

So,

area of 5 faces of tank(excluding base) = 5×(1.5)² = 5×150×150 cm²

Area of each tile = 25×25 = 625 cm²

Number of tiles required =

∵ cost of 1 dozen tiles = Rs.360

∴ cost of 180 tiles (15 dozen) = 15×360 = Rs. 5400

Given,

Increment in each edge = 50%

Let edge of cube = a

So surface area of cube = a²

(after 50% increase )

Length of edge of cube = a+ a×

Surface area of cube =

Increment in area =

% increment =

Given,

Ratio of dimensions of rectangular box = 2:3:4

Let dimensions are = 2x ,3x , 4x

So, total surface area of box = 2(6x²+12x²+8x²) = 52 x²

Let, c₁ = cost of covering at rate Rs. 8 per m²

C₁ = 8×52x²

Let c₂ = cost of covering at rate Rs.9.50 per m²

C₂ = 9.50× 52x²

= C₂ – C₁ = 1248 (given)

= 52x²×9.50 – 52x²×8 = 1248

= 52x² =

= x² =

= x = 4

Hence dimensions of box are = 2x = 2×4 = 8 cm

= 3x = 3×4 = 12 cm

=4x= 4×4 = 16cm

Given,

Length of closed iron tank = 12m

Breadth = 9m

Height = 4m

Total surface area of tank = 2(12×9+9×4+4×12) = 2(192) = 384 m²

Width of iron sheet = 2m (given)

So, length of iron sheet =

Hence, cost of iron sheet at rate Rs.5 per meter = 5×192 = Rs.960

Given,

Height of shelter = 2.5 m

Base dimensions = l×b = 4m×3m

So,

area of tarapaulin needed = lateral surface area of shelter +area of roof

= 2(l+b)h + l×b

= 2(4+3)2.5 +12 = 47 m²

Given,

Thickness of wood = 3cm

External length of box = 1.48 m = 148 cm

External breadth of box = 1.16 m = 116 cm

External height of box = 8.3 dm = 83 cm

So, inner dimensions of box = external dimension – thickness of wood

Inner length = 148- (2×3) = 142 cm

Inner breadth = 116 –(2×3) = 110 cm

Inner height = 83-3 = 80 cm

Hence , inner surface area of box = lateral surface area +area of roof

=2(l+b)h + l×b

= 2 (142+110)83 + 142×110 = 55940 cm² = 5.5940 m²

∴ cost of painting at rate Rs.50 per m² = 50×5.5940 = Rs. 279.70

Given,

Length of room = 12m

Let breadth of room = b m

Let height of room = h m

So, lateral surface area of room = 2(l+b)h m²

Area of floor = l×b m²

Cost of matting the floor = area of floor × rate of matting

= 91.80 = l×b ×.85

= b =

Cost of preparing wall = area of four walls ×rate of preparing

= 340.20 = 2(l+b)h ×

=

Given,

Dimension of room = 12.5m×9m×7m

Dimension of door = 2.5m×1.2m

Dimension of window = 1.5m×1m

So, area of room = 2(l+b)h = 2(12.5+9)×7 = 301 m²

Area of 2 doors = 2(2.5×1.2) = 6m²

Area of 4 windows = 4(1.5×1) = 6 m²

So, area to be painted = (301-12) = 289 m²

∴ cost of painting walls at rate Rs.3.50 per m² = 3.50×289 = Rs.1011.50

Given,

Ratio of length and breadth of a hall = 4:3

Let length of hall = 4x m

Let breadth of hall = 3x m

Height of hall = 5.5m (given)

So, lateral surface area of hall = 2(l+b)h =2(7x) ×5.5 = 77x m²

Cost of decorating walls = lateral surface area +rate of decoration per m²

= 5082 =

=

So, length of hall = 4x = 4×10 = 40 m

Breadth of hall = 3x = 3×10 = 30 m

Given,

External dimensions of wooden shelf = 85cm×25cm×110cm

Thickness of plank = 5 cm

So,

area to be polished = area of four walls +area of back+ area of front beading

= [2(110+85)×25 +110×85 +(75×5)×4] = 21700 cm²

Cost of polishing at rate 20paise per cm² =

Internal surface area = area of five faces of 3 cuboids each of dimension (75cm×30cm×20cm)

Total surface area of 3 cuboids = 3[2(75×30+30×20+20×75)] – 3(75×30)

= 6(2250+600+1500) – 6750 = 19350 cm²

∴ cost of painting at rate 10p per cm² =

Hence, total expense = Rs.(4340+1935) = Rs. 6275

Given,

Dimension of a brick = 22.5 cm×10cm×7.5 cm

Total surface area = 2(lb + bh + hl)

= 2[22.5× 10 + 10× 7.5 + 22.5 × 7.5] cm²

= 2(225 + 75 + 168.75) cm²

= 2(468.75) cm²

= 937.5 cm²

Area that can be painted = 9.375 m²

As 1 m² = 10000 cm²

9.375 m² = 9.375 × 10000

= 93750 cm²

Number of bricks =

= 100 bricks

Given,

Length of cuboidal tank = 6m

Breadth of cuboidal tank = 5 m

Depth of cuboidal tank = 4.5 m

So, capacity of cuboid = l×b×h = 6×5×4.5 = 135m³= 135000 litre

Given,

Length of cuboidal vessel = 10m

Width of cuboidal vessel = 8m

Let height of vessel = h m

So,

volume of vessel = l×b×h = 10×8×h m³

= 10×8×h = 380

= h =

Given,

Dimension of cuboidal pit = 8m×6m×3m

So, volume of pit = 8×6×3 = 144 m³

Cost of digging pit at rate Rs.30 per m³ = 30×144 = Rs.4320

Given,

V= volume of cuboid

S = surface area of cuboid

=a = length of cuboid

=b =breadth of cuboid

= c = height of cuboid

V = abc

S = 2(ab+bc+ca)

Dividing surface area by volume

=

=

Given,

Area of 3 adjacent faces of a cuboid = x, y, z

V = volume of cuboid

Let , a,b,c are respectively length , breadth, height of each faces of cuboid

So, x = ab

= y = bc

= z = ca

V = abc

Hence , xyz = ab×bc×ca = (abc)² = v² (v=abc)

= v² = xyz Proved.

Given,

Area of 3 adjacent faces of cuboid = x= 8 cm² , y = 18 cm² , z = 25 cm²

From previous question we get ,

= v² =xyz

= v²= 8×18×25 = 3600

=v =

Given,

Breadth of room = 2×height of room = b = 2×h = h =

Breadth of room =

Volume of room = 512 dm³

= l×b×h = 512

= 2b×b×

= b³ = 512 = b =

So, breadth of room = 8 dm

Length of room = 2b = 2×8 = 16 dm

Height of room =

Given,

Depth of river = 3m

Width of river = 40 m

Rate of flow of river = 20km/h

Length of river = distance travelled by water in 1 minute at speed 2km/h

=

So, volume of water =

Given,

Width of canal = 30 dm = 3m

Depth of canal = 12 dm = 1.2 m

Velocity of flow = 100 km/h

Length of cuboid thus formed = distance travelled by water in 30 minute at speed 100km/h

=

Volume of water = 50000×3×1.2 m³

Water accumulated in field forms a cuboid of base area equals to area of field and height =

= hence , area of field =

Given,

Edges of 3 metal cubes = 6cm, 8cm, 10 cm

Volume of these cubes together = 6³+8³+10³ = 216+512+1000 = 1728 cm³

Let volume of new cube formed = V

So, V = 1728

= a³ = 1728 = a =

Surface area of new cube = 6a² = 6×12² = 864 cm²

Diagonal of new cube =

Given,

Volume of 2 equal cubes = 512 cm³

= a³ = 512 = a =

When these cubes joined end to end a cuboid is formed so,

Length of cuboid = 8+8 = 16 cm

Breadth of cuboid = 8 cm

Height of cuboid = 8 cm

So, surface area of cuboid = 2(lb+bh+hl) =2(16×8+8×8+8×16)

= 2×320 = 640 cm²

Given,

Volume of the gold sheet =

Area of sheet = 1 hectare = 10000 m²

So, thickness of gold sheet =

Given,

Edge of metal cube = 12 cm

Volume of cube = a³ = 12³ = 1728 cm³

Edge of 2 smaller cube = 6cm , 8 cm

Let edge of 3^rd cube = x cm

So, 6³+8³+ x³ = 1728

= x³ = 1728 – (216+512) = 1000

= x =

Given,

Dimension of cinema hall = 100m×50m×18m

Volume of cinema hall = 100×50×18 m³

Number of persons can sit in cinema hall =

=

Given,

Weight of 1m³ marble = 0.25 kg

Weight of marble 28 cm wide and 5 cm thick = 112 kg

Let length of block = l cm

Then volume of block = l×28×5 cm³ = 140 l cm³

Weight of block = 140 l ×0.25

= 112 = 140 l ×0.25

= l =

Given,

External dimensions of box = 25cm×18cm×15cm

Thickness of wood = 2 cm

So, internal dimensions of box = (25-4) cm×(18-4) cm×(15-4) cm

= 21cm×14cm×11cm

Volume of liquid can place in it = 21 ×14×11 = 3234 cm³

Volume of wood use in it = external volume – internal volume

=

Given,

External dimensions of closed wooden box = 48cm×36cm×30cm

Thickness of wood = 1.5 cm

So inner dimensions of box would be = [(48-3)×(36-3)×(30-3)]

= 45cm×33cm×27cm

Volume of box = 45×33×27 = 38880 cm³

Volume of a brick = 6×3×0.75 = 13.5 cm³

So, number of bricks can put in box =

Given,

External dimensions of box = 36cm×25cm×16.5cm

Thickness of iron = 1.5 cm

Inner dimensions of box = [(36-3)×(25-3)×(16.5-1.5)]

=33cm×22cm×15cm

Volume of iron used = external volume – internal volume

= 36×25×16.5 – 33×22×15 = 3960 cm³

∵ weight of 1 cm³ iron = 15 gm (given)

∴ weight of 3960 cm³ iron = 3960×15 = 59400 gm = 59.4 kg

Given,

Edge of cube = 9 cm

Dimension of base of rectangular vessel = 15cm×12cm

Volume of cube = 9×9×9 = 729 cm³

Area of base of vessel = 15×12 = 180 cm²

So, rise of water in vessel =

Given,

Side of square base of container = 5 cm

Height of water level in container = 1 cm from top

Water overflow after submerging of cube = 2 cm³

Let edge of cube = a cm

Volume of cube = a³ cm³

= a³ = 5²×1 +2 = 27 cm³

= a

Given,

Length of field = 200 m

Breadth of field = 150 m

Dimension of plot = 50m×40m

Depth up to which plot is dug = 7 m

Volume of earth dug out = 50×40×7 = 14000 m³

Let level of earth rises in field = h meter

Hence,

= 200×150×h = 14000

= h =

Given,

Dimension of rectangular field = 18m ×15m

Dimension of pit = 7.5m×6m×0.8m

So, area on which earth taken out is to be spread = 18×15 – 7.5×6=225 m²

Let level of earth rises in field = h meter

So,

=225×h = 7.5×6×0.8

= h =

Given,

Dimension of rectangular tank = 80m×25m = 8000cm×2500cm

Cross section area of pipe = 25 cm²

Rate of flow of water through pipe = 16 km/h

Length of pipe = flow of water through it in 45 minute at speed 16 km/h

=

Volume of pipe =

Let level of water rises in tank in 45 minute = h cm

= 8000×2500×h =

= h =

Given,

Dimension of rectangular reservoir = 80m×60m

Depth of water in reservoir = 6.5 m

Side of square pipe = 20cm

Rate of flow of water through pipe = 15 km/h

Volume of reservoir = 80×60×6.5 m³

Volume of pipe =

Let reservoir be emptied in t hours

=

= t =

Given,

Population of village = 4000

Requirement of water per head per day = 150 litre

Dimension of tank = 20m×15m×6m

Let the water in tank last for x days ..

=

=

Given,

Edge of cube = 3 cm

Volume of cube = 3³ = 27 cm³

Number of cubes = 15

Volume of structure = number of cubes × volume of one cube

= 15×27 = 405 cm³

Given,

Dimension of godown = 40m×25m×10m

Dimension of wooden crates = 1.5m×1.25m×0.5m

Number of wooden crates =

Given,

Length of wall = 10m

Height of wall = 4m

Thickness of wall = 24 cm

Dimension of bricks = 24cm×12cm×8cm

So, number of bricks required =

Given,

Side of two equal cubes = 6 cm

(after joining them face to face a cuboid is formed)

Length of cuboid = 6+6 = 12 cm

Breadth of cuboid = 6 cm

Height of cuboid = 6 cm

So, volume of cuboid = l×b×h = 12×6×6 = 432 cm³

Given,

A₁A₂,A₃ = areas of 3 adjacent faces of cuboid

V = volume of cuboid

Let dimensions of cuboid =

A₁ =

A₂ =

A₃ =

V =

So, A₁A₂A₃ =

=

Given,

Ratio of edge of 3 cubes = 3:4:5

Diagonal of new cube formed = 12√3 cm

Let edges are = 3x ,4x 5x

Comined volume =

= 216 x³

New diagonal = √3a = 12√3 = a = 12 cm

So, a³ = 216 x³

= 12×12×12 = 216 x³

=

=x =

So , edges are = 3x = 3×2 = 6 cm

=4x = 4×2 = 8cm

= 5x = 5×2 = 10 cm

Given,

Edge of cube = 10 cm

Longest rod that can be fitted in cube = diagonal of cube =

= cm

Given,

Perimeter of each face of a cube = 32 cm

Let each edge will be = a cm

So,

4a = 32

= a =

Lateral surface area of cube = 4a² = 4×8² = 256 cm²

Given ,

=

= v = volume of cube

So,

=

∵ v = a³

= v =

=

Given,

Surface area of cube = 432 m²

Let edge of cube = a m

= 6 a² = 432

= a² =

= a =

Given,

Three equal cubes are placed adjacently in a row

Let edge of cubes = a

Hence , sum of surface area of 3 cubes = 3×6a² = 18 a²

So, length of cuboid thus formed = a+a+a = 3a

Breadth of cuboid = a

Height of cuboid = a

Total surface area of cuboid =

Hence ,

Volume of a Cuboid = Length × Breadth × Height

Hence, Volume of a Cuboid V = xyz

Surface Area of a Cuboid = 2 × (Length × Breadth + Breadth × Height + Length × Height)

∴ Surface Area of a Cuboid A = 2 × (xy + yz + zx)

Given,

Total surface area of cuboid = 372 cm²

Lateral surface area = 180 cm²

= 2(l+b) h = 180

= lh +bh = ………………(i)

And ,

= 2(lb+bh+hl) = 372

= lb+bh+hl = ………………(ii)

Putting value of lh+bh from equation (i) to (ii)

= lb +90 = 186

= lb = 186-90 = 96

=l×b = area of base = 96 cm²

Given,

Sum of length ,breadth, height of cuboid = 19 cm

Diagonal of cuboid = 5√5 cm

=

(Squaring both side )

=

∵

Putting values …

= 19² = 125 + 2

=

= surface area of cuboid = 236 cm²

Given,

Edge of each cube = 4cm

After joining 3 cubes end to end a cuboid is formed

Length of cuboid = 4+4+4 = 12 cm

Breadth of cuboid = 4 cm

Height of cuboid = 4cm

Surface area of cuboid = 2(lb+bh+hl)

= 2(48+16+48)

= 224 cm²

Given,

Length of diagonal of cube = 8√3 cm

∵ √3 a = 8√3

=

= surface area of cube = 6 a² = 6× 8×8 = 384 cm²

Given,

Surface area of cuboid = 1300 cm²

Breadth of cuboid = 10 cm

Height of cuboid = 20 cm

Let length of cuboid =

=

=

=

=

Given,

Increment in each edge of a cube = 50%

Let original length of edge of cube = a

Original surface area of cube = 6 a²

After increment ,

New length of edge = a + a

New surface area of cube = 6a² = 6×

Increase in area =

% increase in area =

Given,

Ratio of volumes of two cubes =

∴

=

Given,

Surface area of cube = 96 cm²

= 6a² = 96

=

= a =

Volume of cube = a³ = 4×4×4 = 64 cm³

Given,

Ratio of length , width and height of rectangular solid = 3:2:1

Volume of box = 48 cm³

Let length of box = 3x cm

Breadth of box = 2x cm

Height of box = x cm

Volume of box = v =

= 6x³ = 48

=

=

Hence . length = 3x = 3×2 = 6 cm

= bredth = 2x = 2×2 = 4 cm

= height = x = 2 cm

Total surface area of box =

Given,

Volume of 1^st cube =

Volume of second cube = 1 cm³

Volume of third cube = 8 cm³

∴edge of first cube = a₁ =

∴ edge of second cube = a₂ =

∴ edge of third cube = a₃ =

Hence height of cubes together = a₁+a₂+a₃ =

Given,

Ratio of areas of adjacent faces of cube = 2:3:4

Volume of block = 9000 cm³

= A₁:A₂:A₃ = 2:3:4

= bh:lb:lh = 2:3:4

= b:l = 2:3

=h:l = 2:4

= h:b = 3:4 and v = lbh

Assume that , l = 6x , b= 4x , h = 3x

=

=

= x =

So, smallest edge would be 3x = 3×5 = 15 cm

Given,

Let original edge of cube = a

Then original volume of cube = a³

New edge of cube = 2a

New volume of cube = (2a)³ = 8a³ = 8v ∵v=a³

Given,

Let edges of cuboid = l , b , h

Surface area of cuboid =

New edges of cuboid = 2l , 2b , 2h

New surface area of cuboid =

= 4S

Given,

Area of floor of room = 15 m²

Height of room = 4 m

Volume of air contained in room = area of floor ×height of room

= 15×4 = 60 m³ = 60000 dm³

Given,

Length of wall = 8m

Breadth of wall = 4 m

Thickness of wall = 20 cm =

Volume of wall =

∵ cost of construction of 1m³ wall = Rs. 25

∴ cost of construction of

Given,

Volume of clay = 10 m³

Area of earth = 10 acre = 1000000 cm²

Rise in height of earth level =

Given,

Volume of cuboid =12 cm³

Let dimensions of cuboid = l×b×h

So, l×b×h = 12 …………………….(i)

Dimensions of one another cuboid = 2l ×2b×2h

Volume of cuboid = 8lbh = 8×12 = 96cm³

Given,

Sum of all edges of cube = 36 cm

= 12 a = 36

= a =

Volume of cube = a³ = 3×3×3 = 27 cm³

Given,

Side of cube = 3cm

Dimension of cuboid = 10 cm×9cm ×6 cm

Volume of cuboid = 10×9×6 = 540 cm³

Volume of cube = a³ = 3³ = 27 cm³

Number of cubes can be formed =

Given ,

Length of terrace = 6m = 600 cm

Breadth of terrace = 5m = 500 cm

Height of rainfall = 15 cm

Quantity of water collected on roof = 600×500×15 = 450000 cm³

=