3 cm. AB = 5 cm. (b) Show that the total surface area of the toy is 33p cm2. (2 marks) The radius of the base of a cylinder is x cm. The height of the cylinder is 9.5 cm longer than the radius of its base. The area of the curved surface of the cylinder is equal to the total surface area‚ 33p cm2‚ of the toy. (c) Calculate the height of the cylinder. .................. cm (6 marks) ————————————————————————————————————————— Question 3 A tent has a groundsheet
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diameter 7m. The earth‚ which is so dug out‚ is spread out on a rectangular plot 22m long and 14m broad. What is the height of the platform so formed? 10. The total surface area of a hollow cylinder open at both ends is 4620sqcm‚ area of the base ring is 115.5sqcm and height 7cm. find the thickness of the cylinder. 11. A hemispherical bowl is made of steel 0.5cm thick. The inside radius of the bowl is 4cm. Find the volume of steel used in making the bowl. 12. A circus tent is cylindrical up
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AURA CLASSIC CAMSHAFT GARRIS 480.00 AURA CLASSIC CLUTCH PLATE 110.00 AURA CLASSIC CYLINDER BOLT 95.00 AURA CLASSIC DRIVE GEAR 180.00 AURA CLASSIC LEVER RH 65.00 AURA CLASSIC LEVER LH 65.00 AURA CLASSIC SPROCKET ENGINE 13T 30.00 AURA CLASSIC SPROCKET ENGINE 14T 32.00 AURA CLASSIC STARTER MOTOR 800.00 AURA CLASSIC TACHOMETER 280.00 AURA CLASSIC VALVE SEAL 75.00 AURA CLASSIC WOODRUFF KEY (KUNYA)
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b. 144 in.2 c. 240 in.2 d. 288 in.2 5 cm 5 cm 7 cm 8 cm 4 cm ____ a. 124 cm2 b. 110 cm2 c. 150 cm2 d. 164 cm2 3. Find the surface area of the cylinder. Use a calculator. Round to the nearest tenth. 4m 3m a. 125.7 m2 b. 138.2 m2 c. 150.8 m2 d. 175.9 m2 ____ 4. Find the surface area of a cylinder with radius 5.9 ft and height 4.4 ft. Use a calculator. Round to the nearest tenth. a. 300.3 ft2 b. 481.2 ft2 c. 381.8 ft2 d. 272.5 ft2 5. Find the surface area of
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INDUSTRIAL TRAINING REPORT AT SHRIRAM PISTONS & RINGS Ltd. [pic] Submitted By NIHIT PANT B.Tech 3rd year 0622240038 [pic] MECHANICAL ENG. DEPARTMENT (I.T.S. ENGINEERING COLEGE) (GREATER NOIDA) ACKNOWLEDGMENT I would like to express my gratitude to Mr. Dinesh Sharma (Manager Piston plant.) for allowing me to be a part of this esteemed comapny. It has been a wonderful experience working with so many experienced people.I would especially
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although it had a smaller spring-loaded outrigger wheel on each side. It was constructed mostly of wood‚ with the wheels being of the iron-banded wooden-spoken wagon-type‚ definitely a bone crusher chassis. It was indeed powered by single-cylinder Otto-cycle engines‚ and may have had a spray – type carburetor. Daimler’s assistant‚ wit helm may Bach was working on the invention of the spray carburetor at the time. It one counts two wheels with steam propulsion as being a motorcycle
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Crank and Connecting Rod Objective To obtain the displacement diagram for the piston of a crank and connecting rod assembly Theory The slider crank chain is one of the two basic mechanisms which from the basic for many more complicated motions. (The others are the four Bar Chain‚ Scoth Yoke or Chebyshev linkage of which over 800 forms are known). It transforms linear motion to circular motion or vice versa. A crank is an arm attached at right angles to a rotating shaft by which reciprocating
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Sensorial Cylinder Blocks Material: Four blocks containing ten cylinders with knobs; each fitting into its respective hole. Block 1: Ten cylinders varying in diameter only Block 2: Ten cylinders varying in height and diameter from tall and wide to short and narrow Block 3: Ten cylinders varying in height and diameter from tall and narrow to short and wide Block 4: Ten cylinders varying in height only Aims: To refine the child’s visual perception of dimension To refine the child’s co-ordination
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(m) | Inch(in) | Yard(yd) | Stirring rod: Length | 300.50cm | 3.005m | 12in | 0.33yd | Lab. Manual: Length | 271cm | 2.71m | 10.20in | 0.28yd | Lab. Manual: Width | 208cm | 2.08m | 8.60in | 0.24yd | B. Graduated Cylinder Volume reading when graduated cylinder is half filled with | (mL) | Potassium permanganate(KMnO4) | 12.6mL | Distilled Water (H2O) | 12.3mL | | Capacity of Apparatus (maximum volume contained) | Big test tube | 18.8mL | 250-mL Beaker | 50mL |
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deformation is directly proportional to the deforming force provided that its yield strength is not exceeded. Under these conditions the object returns to its original size and shape upon removal of the deforming force. It is therefore expected that the cylinder underwent no permanent deformation during this experiment. Strain rosette measurements were taken from the graph a s pressure of 25Mpa to calculate the angle from the principal axis. At 25mPa grid one (1) gave value of ‚ grid two (2) and grid
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