Focus On Earth Science: California Grade 6

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1			Find the difference in the volumetric thermal expansion coefficient for steel and the volumetric thermal expansion coefficient of diamond. Need a Hint?
			A)	11 parts per million per °C
			B)	33 parts per million per °C
			C)	13 parts per million per °C
			D)	39 parts per million per °C
2			Find the volumetric thermal expansion coefficient for lead. Need a Hint?
			A)	87 parts per million per °C
			B)	29 parts per million per °C
			C)	58 parts per million per °C
			D)	3 parts per million per °C
3			Find the difference in the volumetric thermal expansion coefficient for diamond and the volumetric thermal expansion coefficient of lead. Need a Hint?
			A)	90 parts per million per °C
			B)	28 parts per million per °C
			C)	30 parts per million per °C
			D)	85 parts per million per °C]
4			Find the volumetric thermal expansion coefficient for concrete. Need a Hint?
			A)	24 parts per million per °C
			B)	12 parts per million per °C
			C)	36 parts per million per °C
			D)	48 parts per million per °C
5			Find the difference in the volumetric thermal expansion coefficient for lead and the volumetric thermal expansion coefficient of concrete. Need a Hint?
			A)	17 parts per million per °C
			B)	51 parts per million per °C
			C)	34 parts per million per °C
			D)	68 parts per million per °C
6			Find the volumetric thermal expansion coefficient for copper. Need a Hint?
			A)	51 parts per million per °C
			B)	17 parts per million per °C
			C)	34 parts per million per °C
			D)	68 parts per million per °C
7			Find the difference in the volumetric thermal expansion coefficient for concrete and the volumetric thermal expansion coefficient of copper. Need a Hint?
			A)	20 parts per million per °C
			B)	5 parts per million per °C
			C)	10 parts per million per °C
			D)	15 parts per million per °C
8			Find the volumetric thermal expansion coefficient for glass. Need a Hint?
			A)	17 parts per million per °C
			B)	8.5 parts per million per °C
			C)	25.5 parts per million per °C
			D)	34 parts per million per °C
9			Find the difference in the volumetric thermal expansion coefficient for copper and the volumetric thermal expansion coefficient of glass. Need a Hint?
			A)	8.5 parts per million per °C
			B)	25.5 parts per million per °C
			C)	17 parts per million per °C
			D)	34 parts per million per °C
10			Find the volumetric thermal expansion coefficient for platinum. Need a Hint?
			A)	27 parts per million per °C
			B)	9 parts per million per °C
			C)	18 parts per million per °C
			D)	36 parts per million per °C