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As you will see in the examples in these American Sign Language classes, the handshapes and movements of classifiers can represent people, animals, objects, etc. and show movements, shapes, actions, and locations. They can show a person walking, an animal chewing, someone driving, a car driving through the mountainsvirtually anything!

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US2428789A US471989A US47198943A US2428789A US 2428789 A US2428789 A US 2428789A US 471989 A US471989 A US 471989A US 47198943 A US47198943 A US 47198943A US 2428789 A US2428789 A US 2428789A Authority US United States Prior art keywords sands flights tank spiral pool Prior art date 1943-01-11 Legal status (The legal

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(a) To clear and excavate to rock: Equipment Machine Hours Machine Rate Cost Tractor 27 72.00 1944.00 Cost per cubic meter solid rock = $0.10 (b) To drill and blast at a production rate of 140 cubic meters per hour Equipment Machine Hours Machine Rate Cost Drills 1.0 60.00 60.00 Compressor 1.0 55.00 55.00 Explosives 0.8 kg $2.0/kg 140 m3 224.00 339.00 Cost per cubic meter solid rock = $2.42 (c) To crush 225 tons per hour (2.6 tons/solid cubic meter): Equipment Machine Hours Machine Rate Cost Tractor 0.5 72.00 36.00 Loader 1.0 90.00 90.00 Crusher 1.0 90.00 90.00 Stacker 1.0 15.00 15.00 Generator 1.0 20.00 20.00 251.00 Cost per cubic meter solid rock = $2.90 (d) To load, transport, spread 20,000 cubic meters of rock. 1 truck 3 loads/hr 20 tons/ld m3/2.6 ton = 23 m3/hr If 4 trucks are used: Equipment Machine Hours Machine Rate Cost 4 trucks 870 50.00 43,500 Loader 218 90.00 19,600 Tractor 218 72.00 15,700 Grader 30 60.00 1,800 80,600 Cost per cubic meter solid rock = $4.03 The total unit cost of per cubic meter of rock spread on the road is Activity $/m3solid $/m3prism $/km Develop pit 0.10 0.08 74 Drill and blast 2.42 1.83 1833 Crush 2.90 2.20 2197 Load, transport, and spread 4.03 3.05 3053 9.45 7.16 7157 Equipment balancing plays an important role in obtaining the minimum cost per cubic meter for surfacing. In some areas, market prices for various types of surfacing may exist and tradeoffs between aggregate cost, aggregate quality, and hauling distance will have to be evaluated. Since surfacing is often expensive, a surveying crew is sometimes added to stake and monitor the surfacing operation.4.7 Drainage Drainage costs vary widely with the type of drainage being installed. The costs of drainage dips (water bars), culverts, and bridges are often expressed as a cost per lineal foot which can then be easily applied in road estimating. Local values for cost per lineal foot for culverts and different types of bridges are generally available. If not, constructed costs can be made by using time study data. EXAMPLE: A 45 cm culvert, 10 meters long, is being installed. Experience indicates that a small backhoe and operator, and two laborers can install 3 culverts per day. The culvert crew uses a flat-bed truck to transport themselves and the pipe each day. To install 3 culverts: Equipment Machine Hours Machine Rate Cost Backhoe 6 60.00 360.00 Truck 9 12.00 108.88 Pipe Cost 30 meters $15/meter 450.00 918.00 Cost per lineal meter of culvert = $30.60 per meter Alternatively the cost could be stated as $306 per culvert or if there were an average of 4 culverts per km, then $1224 per km

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building environment specific artifacts with classifier

In 1982, Supalla showed that classifier constructions were part of a complex morphological system in ASL.[59][60][47] He split the classifier handshapes into two main categories: semantic classifiers (also called "entity classifiers") and size and shape specifiers (SASSes).[61] SASS categories use handshapes to describe the visual properties of an entity. Entity classifiers are less iconic. they refer to a general semantic class of objects such as "thin and straight" or "flat and round".[62] Handling classifiers would be the third type of classifier to be described. This classifier imitates the hand holding or handling an instrument.[62] A fourth type, the body-part classifier, represents a human or animal body parts, usually the limbs.[63] Linguist adopted and modified Supalla's morphological analysis for other sign languages.[27]

building environment specific artifacts with classifier

In DMC case, the Preheater system is composed of a double-string preheater and in-line Calciner. Fuel and preheated raw material entered the Calciner are taken by high-speed current of air, suspend inside in the stove, go upside in spiral flow and fire and resolve at the same time in both string. The combustion of the fuel gives out heat and the raw material absorbs heat to decomposition. These two processes happen very quickly at the same time in suspended situation

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In 1982, Supalla showed that classifier constructions were part of a complex morphological system in ASL.[59][60][47] He split the classifier handshapes into two main categories: semantic classifiers (also called "entity classifiers") and size and shape specifiers (SASSes).[61] SASS categories use handshapes to describe the visual properties of an entity. Entity classifiers are less iconic. they refer to a general semantic class of objects such as "thin and straight" or "flat and round".[62] Handling classifiers would be the third type of classifier to be described. This classifier imitates the hand holding or handling an instrument.[62] A fourth type, the body-part classifier, represents a human or animal body parts, usually the limbs.[63] Linguist adopted and modified Supalla's morphological analysis for other sign languages.[27]

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These classifiers use both the handshapes and movements to describe the property and movement of the elements of fire, water, and air

learn asl classifiers for beginners

Different ways of signing, often using a locative classifier phrase. A person (or sometimes something) falling down). Classifier verb: (person) fall to the ground, where the dominant handshape depicts a person and the passive one represents a surface. Inflect the ASL verb FALL-DOWN and/or use a classifier handshape where grammatically appropriate. For example in the video above, it means a person falling down (dominant-handed classifier) something such as a water well or underwater well or any larger container than human size (passive-handed classifier). Related signs: fall off, COLLAPSE, TOPPLE, TUMBLE

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Aseries of short but robust English texts is presented for improving classifier use when translating English into ASL.The following texts are taken from The Random House Book of 1001 Questions and Answersby Bridget and Neil Ardley (1989, Random House, NY) and Learn to Listen, Listen to Learnby Roni S. Lebauer (1988, Princeton-Hall, Inc., NJ)

Disadvantages of impact crusher in aggregate crushing plant. 1. The impact crusher have not the grate bar, so it cannot control the product size, and it is difficult to produce a single size product with a small number of large parts. 2. For rough crushing and single machine crushing, the maximum feed grain shall be strictly controlled. 3

Hearmon, R.F.S.; Burcham, J.N. 1954. The dielectric properties of wood. Her Majestys Stationary Off. Sec. Pep. 8, London.[Links]HeatWave Technologies Inc. 2004. www.heatwave.com[Links]Jagfeld, P. 1963. Die Trocknung von Holz im hochfrequenten Wechselfeld. Holz-Zbl. 89(10): 67[Links]James, W.L.; Hamill, D.W. 1965. The dielectric properties of Douglas fir measured at microwave frequencies. Forest Prod. J. 15(2): 51-56 [Links]James, W.L. 1975. Dielectric properties of wood and hardboard: variation with temperature, frequency, moisture content, and grain orientation. USDA Forest Prod. Lab. Res. Pap. FPL-245, Madison[Links]Jia, D.; Afzal, M.T. 2005. A comparison in microwave drying of Red Maple (Acer rubrum L.) and White Oak (Quercus alba). 9th Intl. IUFRO Wood Drying Conf. Nanjing, China 197-202[Links]Jones, P.L. 1996. RF Heating, an old technology with a future. Proceedings of Microwave and High Frequency Heating. L 1.1-LI.9.[Links]Kawai, Y.; Kobayashi, Y.; Norimoto, M.; Pulido, O.P. 2001. Water pathways during HF heating of wood. Int. Conf. Development of Wood Science, Ljubljana, Sl.[Links]Kobayashi, Y.; Kawai, Y.; Norimoto, M.; Pulido, O.P. 2001. Industrial application of HF heating during low temperature drying of refractory species of lumber. Intl. Conf. Development of Wood Science, Ljubljana, Sl.[Links]Kollmann, F. 1951. Technologie des Holzes und der Holzwerkstoffe. Bd.2, 2nd ed. Springer, Berlin[Links]Koppelmann, E. 1976. Process and apparatus for seasoning of wood. U.S. Patent 3, 986.268. U.S. Patent Office, Washington DC.[Links]Koumoutsakos, A.; Avramidis, S.; Hatzikiriakos, S. G. 2001a. Radio frequency vacuum drying of wood. I: Theoretical model . Drying Technol. 19(1): 65-84.[Links]Koumoutsakos, A.; Avramidis, S.; Hatzikiriakos, S. G. 2001b. Radio frequency vacuum drying of wood. II: Experimental model validation. Drying Technol. 19(1): 85-98.[Links]Koumoutsakos, A.; Avramidis, S.; Hatzikiriakos, S. G. 2002. Mass transfer characteristics of Western hemlock and Western red cedar. Holzforschung. 53(2):185-190.[Links]Koumoutsakos, A.; Avramidis, S.; Hatzikiriakos, S. G. 2002. Fundamental phenomena in wood RFV drying with 50-Ohm amplifier technology. Maderas. Ciencia y tecnologia 4(1):15-25.[Links]Lee, H.W. 2005. Microwave drying of large dimension wood I: Korean Red Pine with sectional dimension of 150 by 150mm. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China 203-206.[Links]Lee, N-H.; Hayashi, K. 2000a. Comparison of shrinkage, checking, and absorbed energy in impact bending of Korean ash squares dried by a radio-frequency/vacuum process and a conventional kiln. Forest Prod. J. 50(2): 69-72[Links]Lee, N-H.; Hayashi, K. 2000b. Effect of end-covering and low pressure steam explosion treatment on drying rate and checking during radio-frequency/vacuum drying of Japanese cedar log cross sections. Forest Prod. J. 50(2): 73-78 [Links]Leiker, M.; Aurich, K. 2003. Sorption behaviour of microwave dried wood. Proceedings 8th IUFRO Wood Drying Conference. Brasov, Romania: 237-240.[Links]Leiker, M.; Adamska, M.A. 2004. Energy efficiency and drying rates during vacuum microwave drying of wood. Holz als Roh- und Werkstoff 62: 203-208.[Links]Leiker, M.; Adamska, M.A.; Giittel, R.; Mollekopf, N. 2004a. Vacuum microwave drying of beech: property profiles and energy efficiency. Proceedings of COST E15 Intl. Conf. Wood Drying, Athens, Greece, 128-137.[Links]Leiker, M.; Adamska, M.A.; Mollekopf, N. 2004b. Microwave drying of single wood boards in multimode cavities. Proceedings of Intl. Workshop and Symposium on Drying, Mumbai, India.[Links]Leiker, M.; Aurich, K.; Adamska, M.A. 2005. Accelerated drying of single hardwood boards by combined vacuum-microwave application. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 185-190[Links]Li, X.; Gao, R.; Kuroda, N.; Kobayashi, I. 2005. Studying on RF/V drying characteristics for plantation poplar. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 191-196[Links]Liu, F.; Avramidis, S.; Zwick, R. 1994. Drying thick western hemlock in a laboratory radio-frequency/vacuum dryer with constant and variable electrode voltage. Forest Prod. J. 44(6): 71-75[Links]Liu, Z.; Zheng, H.; Zhang, B; Libei, M. 2005. Mechanism of internal moisture migration in wood during microwave drying 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 220-225[Links]Luth, H.J.; Krupnick, S.R. 1945. Method and apparatus for drying lumber. U.S. Patent 2,387.595. U.S. Patent Office, Washington DC.[Links]Makoviny, I. 1995. A contribution to the calculation of the fundamental quantities at high-frequency heating and gluing of wood. Drevarsky Vyskum, Cislo 4: 45-57 Matsumoto, B. 1934. Japanese Patent 125862 [Links]Mc Alister, W.R.; Resch, H. 1971. Drying 1-inch Ponderosa pine lumber with a combination of microwave power and hot air. Forest Prod. J. 21(3): 26-39.[Links]Miller, D.G. 1948. Application of heating to the seasoning of wood. Proc. Forest Prod. Res. Soc. 235[Links]Miller, D.G. 1966. Radio-frequency lumber drying: methods, equipment and costs. Canad. Forest Ind. 86(6): 53 [Links] Mokushin, 2001. Kiln dry report. www.mokushin.com. Murata, J.; Iso, H. 1949. High frequency methods for wood drying. Mokuzai Kogyo (Wood Industry) 4: 250-256[Links]Myojin, M.; Hayashi, K.; Aavakaillo, T. 2005. Practical development of radio frequency vacuum drying method with hot blow. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 435-440.[Links]Perkin, R. M. 1980. The heat and mass transfer characteristics of boiling point drying using radio frequency and microwave electromagnetic fields. Int. J. Heat and Mass Transfer. 23: 687 [Links]Perr, P.; Turner, I. W. 1999. The use of numerical simulation as a cognitive tool for studying the microwave drying of softwood in an over-sized waveguide. Wood Science and Technology 33: 445-464[Links]Pound, J. 1973. Radio frequency heating in the timber industry. E. & F.N. Spon Ltd. London, 191 pp.[Links]Resch, H. 1966. Preliminary technical feasibility study on the use of microwaves for the drying of redwood lumber. Proc. Ann. Meet. Western Dry Kiln clubs, Redding, California[Links]Resch, H. 1967. Drying Incense cedar pencil slats by microwave power. J. Microwave Power. 2 (2): 45-49[Links]Resch, H. 1968. ber die Holztrocknung mit Mikrowellen. Holz als Roh- und Werkstoff. 26(9): 317-324[Links]Resch, H.; Lofdahl, C.A.; Smith, F.J.; Erb, C. 1970. Moisture leveling in veneer by microwaves and hot air. Forest Prod. J. 20(10): 50-58[Links]Resch, H.; Hansmann, C.; Pokorny, M. 2000. The color of wood from white oak. Holzforschung u. Holzverwertung. 52(1): 13-15[Links]Resch, H.; Gautsch, E. 2000. Vakuumtrocknung von Schnittholz im dielektrischen Wechselfeld. Holzforschung u. Holzverwertung. 52(5): 105-108[Links]Resch, H.; Hansmann, C. 2002. Tests to dry thick Eucalyptus boards in vacuum using high frequency heating. Holzforschung u. Holzverwertung, 54(3): 59-61[Links]Resch, H. 2003. High-frequency heating combined with vacuum drying of wood. 8th Intl. IUFRO Wood Drying Conf., Brasov, Romania, 127-132.[Links]Resnik, J.; Sernek, M.; Kamke, F. 1997. High-frequency heating of wood with moisture content gradient. Wood and Fiber Science. 29(3): 264-271[Links]Russian Academy of Science, (undated) Vacuum dielectric apparatus for seasoning wood, Scientific Productional Centre of Informational and Industrial Technologies Moscow Smith, W.B.; Canham; H.O.; Harris, J.; Neuhauser, E.F.; Smith, A. 1996. Economic analysis of producing red oak dimension squares with a radio-frequency vacuum dry kiln. Forest Prod. J. 46(3): 30-34[Links]Stephen, J.L.; Holmquest, H. J. 1936a. Drying lumber with high-frequency electric fields. Wood Products 41(10): 10-12 .[Links]Stephen, J.L.; Holmquest, H. J. 1936b. Drying lumber with high-frequency electric fields. Wood Products 41(11): 15-19. [Links] Tiemann, H.D. 1944. Wood Technology. 2nd ed. New York and Chicago[Links]Tinga, W.; Nelson, S.O. 1973. Dielectric properties of materials for microwave processing - tabulated. J. Microwave Power. 8(1): 23[Links]Torgovnikov, G.I. 1993. Dielectric properties of wood and wood based materials. Springer Verlag Berlin, 194 pp.[Links]Trofatter, G.; Harris, R.A.; Schroeder, J.; Taras, M.A. 1986. Comparison of moisture content variation in red oak lumber dried by a radio-frequency/vacuum process and a conventional kiln. Forest Prod. J. 36(5): 25-28.[Links]Turner, I.W.; Puigalli, J.R.; Jomaa, W. 1998. Numerical investigation of combined microwave and convective drying of a hygroscopic porous material. Trans. IchemE.76 (A): 193-209[Links]Voigt, H.; Krischer, O.; Schauss, H.1940. Sondernverfahren der Holztrocknung. Holz Roh- u. Werkstoff. 3(11): 364.[Links]Von Hippel, A.R. 1959. Dielectrics and waves. John Wiley, New York[ [Links]STANDARDIZEDENDPARAG] Wang, X. 2005. A study on drying stress relaxation of wood subjected to microwave radiation. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 214-219[Links]Wilson, J.B. 1989. Radio-frequency drying of wood veneer - commercial use. J. Microwave Power and Electromagnetic Energy 24(2): 67-73.[Links]Yang, W.; Chen, M.; Zheng, L. 2005. Study on the varying law of Moisture Content and Temperature of wood during microwave drying. 9th Intl. IUFRO Wood Drying Conf. Nanjing, China, 207-213[Links]Yasujima, 2001. High Elec Dryer EX. www.jeims.co.jp Zhang, L.; Avramidis, S.; Hatzikiriakos, S.G. 1997. Moisture flow characteristics during radio frequency vacuum drying of thick lumber. Wood Science and Technology. 31(4): 265-277[Links]Zhao, H.; Turner, I.W. 2000. The use of a coupled computational model for studying the microwave heating of wood. Appl. Math. Modeling 24: 183-197[Links]Zhou, B.; Avramidis, S. 1999. On the loss factor of wood during radio frequency heating. Wood Science and Technology 33:299-331[Links]Zhu, Z.X.; Xiang, M.D.; Jiang, R.S.; Liu, J.; Bai, B.; Chu, Z.Y.; Zheng, J.D.; Ma, L.S.; Yu, J.L.; Shan, Y.M. 1985. Study on the drying of lumber with microwave energy. J. NE Forestry University, China, 13 (4): 1-7[Links]Zielonka, P.; Dolowy, K. 1998. Microwave drying of spruce: moisture content, temperature and heat energy distribution. Forest Prod. J. 48(6): 77-80[Links]

These classifiers use both the handshapes and movements to describe the property and movement of the elements of fire, water, and air

Different ways of signing, often using a locative classifier phrase. A person (or sometimes something) falling down). Classifier verb: (person) fall to the ground, where the dominant handshape depicts a person and the passive one represents a surface. Inflect the ASL verb FALL-DOWN and/or use a classifier handshape where grammatically appropriate. For example in the video above, it means a person falling down (dominant-handed classifier) something such as a water well or underwater well or any larger container than human size (passive-handed classifier). Related signs: fall off, COLLAPSE, TOPPLE, TUMBLE

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There is little research on the differences in classifier constructions across sign languages.[36] Most seem to have them and can be described in similar terms.[36] Many unrelated languages encode the same entity with similar handshapes.[37] This is even the case for children not exposed to language who use a home sign system to communicate.[37] Handling classifiers along with extension and surface classifiers are especially likely to be the same across languages.[37]

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Consider the following ASL text entitled A Cross Country Mishap. This ASL vlog is 1:03 minutes in length and the ASL narrator is discussing what happens to one individual during a cross country skiing competition. View the text first for comprehension, and then next to isolate and identify where classifiers and classifier constructs were utilized

Spiral classifier is one of the equipment for mineral processing. The spiral classifier is mechanically graded by the principle of different velocity of precipitation in

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There is little research on the differences in classifier constructions across sign languages.[36] Most seem to have them and can be described in similar terms.[36] Many unrelated languages encode the same entity with similar handshapes.[37] This is even the case for children not exposed to language who use a home sign system to communicate.[37] Handling classifiers along with extension and surface classifiers are especially likely to be the same across languages.[37]

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