Mineralogy II Jeopardy Template

Uniaxial Systems

Biaxial Systems

Interference Figures

More on Light II

100

It contains <omega>.

Circular Section

100

Angle between Optic Axes

100

Pattern of black bands

Isogyre

100

Mineral with uniform physical properties, including a single refractive index, because its crystal structure is the same in all directions

Isotropic

100

Maximum displacement measured from equilibrium position

Amplitude

200

It contains <epsilon> and <omega>

Principal Section

200

Shape of isochromes in biaxial minerals

Teardrop shaped

200

One optic axis is vertical, and correspondingly the second optic axis and the bxa are inclined to vertical.

Centered Optic Axes Figure

200

Minerals that show the property of double refraction

Anisotropic

200

lineal distance between successive wave crests

wavelenght

300

In this interference figure the Optic Axis is vertical

Optic Axis Figure

300

Crystal System - indicatrix axes coincide with crystallographic axes

Orthorhombic

300

Bxa and Bxo parallel to the polarization directions, isogyres form a broad fuzzy cross, with only
the outer edges of each quadrant allowing any light to pass

Optic Normal Figure

300

Abstraction of the optical properties of minerals

Optical Indicatrix

300

Absorption properties

Color, Pleochroism

400

In this interference figure the Optic Axis is horizontal

Flash Figure

400

Crystal System - Y axis of indicatrix coincides with one of the crystallographic axes

Monoclinic

400

Method that uses an acute bisectrix figure to calculate the angle between optic axes

Mallard

400

Range of polychromatic light

300nm - 700nm

400

Refraction properties

Relief, Becke Lines

500

Off-centered Optic Axis Figure - this ray is radial from the melatope

Extraordinary ray

500

Crystal System - none of the indicatrix axes coincide with crystallographic axes

Triclinic

500

Method that involves measuring the angle of stage rotation needed to cause the cross shaped isogyre in the acute bisectrix figure to split apart and leave the field of view

Kamb

500

Central ray of the cone of light hits perpendicularly; the rest of the rays coming out of the cone propagate along different crystallographic directions in the crystal.

Conoscopic Light

500

The point where the optic axis emerges in the interference figure

Melatope