The Journal of Materials EducationEMMSE, Materials Research Laboratory, the Pennsylvania State University, 1992 - Engineering |
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Page 123
... determine the minimum cooking time required to fully cook the potatoes in the microwave . Use the data from that test to estimate the minimum cooking energy and the energy efficiency . ( b ) Calculate the minimum energy , E , required ...
... determine the minimum cooking time required to fully cook the potatoes in the microwave . Use the data from that test to estimate the minimum cooking energy and the energy efficiency . ( b ) Calculate the minimum energy , E , required ...
Page 257
... determine the sensitivity of x - ray diffraction to layer thickness fluctuations , a series of Nb / Cu superlattices ... determined by x - ray refinement are given in Table 1 . TABLE 1 Refined roughness values compared to the artificial ...
... determine the sensitivity of x - ray diffraction to layer thickness fluctuations , a series of Nb / Cu superlattices ... determined by x - ray refinement are given in Table 1 . TABLE 1 Refined roughness values compared to the artificial ...
Page 259
... determined from the refinement about the first - order profile are a continuous disorder of 0.3 Å per interface and a ... determine the lattice parameters without roughness included in the model may give incorrect results . INTERFACIAL ...
... determined from the refinement about the first - order profile are a continuous disorder of 0.3 Å per interface and a ... determine the lattice parameters without roughness included in the model may give incorrect results . INTERFACIAL ...
Contents
JOURNAL OF MATERIALS EDUCATION | 1 |
11 JOURNAL OF MATERIALS EDUCATION | 11 |
THE CALCULATION OF CRYSTAL DIFFRACTION MAR 03 1993 | 93 |
Copyright | |
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Alkemade Alkemade rule alteration atoms Auger and XPS barium titanate bilayer binary compound boiling boundary curve separating calculation ceramics Chapter chemical compatibility triangle components cooling cordierite crack cristobalite crystalline crystallization path Design of Glass-Ceramics dielectric electrons Engineering enthalpy equations eutectic point fiber fracture toughness fulcrum glass Glass-Ceramics immiscibility incongruently melting interdiffusion interface intersection Introduction to Spreadsheet isotherms Laboratory lattice vectors layer loci locus macro mass Materials Education Materials Science measure melt composition method microstructure microwave module parameters path of crystallization Pennsylvania State University peritectic phase boundary phase diagram Phase Equilibria phase percentages Phys plate plot primary phase areas PROPERTIES OF POTATOES Properties of Thin quantity sample semi-eutectic separating primary phase silicate solid solution specific heat spreadsheet starting composition stress structure superlattice Synthesis and Design Table Technology temperature ternary invariant points Ternary Systems thickness Thin Films tie-line tie-triangle worksheet x-ray diffraction