33) (USCS units) What's the increase in length of a steel bar whose length 100ft, if the bar is heated from a room temperature of 70°F to 480°F. Use table 4.1 for reference. Round to the nearest 1000th of an inch. Note: Watch your units Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials Coefficient of Thermal Melting Point, T Density, p Expansion, a Material Cx 10CF 10 g/em (Ib/in) C CF) Metals Aluminum (13.3) (9.4) 2.70 (1220) (0.098) 24 660 Copper 8.97 1083 (0.324) 17 (1981) Iron 7.87 (0.284) (2802) 12.1 (6.7) 1539 Lead 11.35 (0.410) 29 (16.1) (621) 327 Magnesium 1.74 (0.063) 26 (1202) (14.4) 650 Nickel 8.92 (0.322) 13.3 (7.4) 1455 (2651) Steel 7.87 (0.284) 12 (6.7) (12.7) a a Tin 7.31 (0.264) 23 232 (449) Titanium 4.51 (0.163) 8.6 (4.7) 1668 (3034) Tungsten 19.30 (0.697) 4.0 (2.2) 3410 (6170) Zinc 7.15 (0.258) 40 (22.2) 420 (787) Ceramics and Silicon Glass 2.5 (0.090) 1.8-9.0 (1.0-5.0) Alumina 3.8 (0.137) 9.0 (5.0) 2072 (3762) Silica 2.66 (0.096) 0.55 (0.31) 1600 (2912) Silicon 2.33 (0.085) 2.6 (14) 1414 (2577) Polymers Phenol resins 1.3 (0.047) 60 (33) Nylon 1.16 (0.042) 100 (55) 260 (500) Polyethylene 0.92 (0.033) 180 (100) 115 (240) Polystyrene Polyvinylchloride 1.05 (0.038) 70 (39) (464 240 1.40 (0.051) 50 (28) 212 (414) Compiled from, 121. 131. 14). I5], and other sources Melting temperature depends on composition. Low-density polyethylene Chemically degrades at high temperatures because it is a thermosetting polymer, other polymers listed are thermoplastic

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33) (USCS units) What's the increase in length of a steel bar whose length 100ft, if the bar is heated from a room temperature of 70°F to 480°F. Use table 4.1 for reference. Round to the nearest 1000th of an inch. Note: Watch your units

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Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials Coefficient of Thermal Melting Point, T Density, p Expansion, a Material Cx 10CF 10 g/em (Ib/in) C CF) Metals Aluminum (13.3) (9.4) 2.70 (1220) (0.098) 24 660 Copper 8.97 1083 (0.324) 17 (1981) Iron 7.87 (0.284) (2802) 12.1 (6.7) 1539 Lead 11.35 (0.410) 29 (16.1) (621) 327 Magnesium 1.74 (0.063) 26 (1202) (14.4) 650 Nickel 8.92 (0.322) 13.3 (7.4) 1455 (2651) Steel 7.87 (0.284) 12 (6.7) (12.7) a a Tin 7.31 (0.264) 23 232 (449) Titanium 4.51 (0.163) 8.6 (4.7) 1668 (3034) Tungsten 19.30 (0.697) 4.0 (2.2) 3410 (6170) Zinc 7.15 (0.258) 40 (22.2) 420 (787) Ceramics and Silicon Glass 2.5 (0.090) 1.8-9.0 (1.0-5.0) Alumina 3.8 (0.137) 9.0 (5.0) 2072 (3762) Silica 2.66 (0.096) 0.55 (0.31) 1600 (2912) Silicon 2.33 (0.085) 2.6 (14) 1414 (2577) Polymers Phenol resins 1.3 (0.047) 60 (33) Nylon 1.16 (0.042) 100 (55) 260 (500) Polyethylene 0.92 (0.033) 180 (100) 115 (240) Polystyrene Polyvinylchloride 1.05 (0.038) 70 (39) (464 240 1.40 (0.051) 50 (28) 212 (414) Compiled from, 121. 131. 14). I5], and other sources Melting temperature depends on composition. Low-density polyethylene Chemically degrades at high temperatures because it is a thermosetting polymer, other polymers listed are thermoplastic