Faculty                     : MIPA
Study Program               : Mathematics Education
Course & Code               : Solid Geometry/MAA310
Credit Hours               : 3 sks
Semester                         : 3
Prerequisites & Code        : Plane Geometry/MAA205
Lecturer                       : Himmawati P.L, M.Si.

### I.         COURSE DESCRIPTION

The study of Solid Geometry includes space geometry : basic elements of space and their relations, oblique projection, perpendicular, angle, distance, prism, cylinder, cone, sphere, cross section, polyhedron

### II.       COURSE  BASED COMPETENCY

The students will be able to explain concepts and properties of space figures, and use them to solve problems either in mathematics or in other courses.

### III.      ACTIVITY PLAN

 Meeting Based Competency Main Materials Lecturer Strategy References 1 Preliminary Preliminary Discussion A, C 2 Basic elements and their relations Introduction Discussion A, C 3 Extending  plane  geometry  into solid geometry Extending   plane   geometry into solid geometry Discussion & presentation A, C 4 Geometric constructions Oblique Projection Discussion & presentation A, C 5 Oblique projection Oblique Projection Discussion & presentation A, C 6 Pencil   of   planes   and   dihedral angle Pencil of planes and dihedral angle Discussion & presentation A, C 7 Angle formed by two geometric object Angle Discussion & presentation A, C 8 Angle formed by two geometric object Angle Discussion & presentation A, C 9 Line perpendicular to plane perpendicular Discussion & presentation A, C 10 Line perpendicular to plane perpendicular Discussion & presentation A, C
 11 Distance of two geometric object Distance Discussion & presentation A, C 12 Distance of two geometric object Distance Discussion & presentation A, C 13 Definition,    kind,    elements    of prism Prism Discussion & presentation A, C 14 Lateral area and volume of prism Prism Discussion & presentation A, C 15 Definition,    kind,    elements    of pyramid pyramid Discussion & presentation A, C 16 Lateral    area   and    volume    of pyramid Pyramid Discussion & presentation A, C 17 1st MIDTERM 18 Definition and its properties Cylinder Discussion & presentation A, B, C 19 Definition and its properties Cylinder Discussion & presentation A, B, C 20 Definition and its properties Cone Discussion & presentation A, B, C 21 Definition and its properties Cone Discussion & presentation A, B, C 22 Conic sections Cone Discussion & presentation A, B, C 23 Definition and its properties Sphere Discussion & presentation A, B, C 24 Sphere section Sphere Discussion & presentation A, B, C 25 Area and volume Sphere Discussion & presentation A, B, C 26 Cross section Cross section Discussion & presentation A, B, C 27 Cross section Cross section Discussion & presentation A, B, C 28 Definition and polyhedron’s type polyhedron Discussion & presentation A, B, C 29 Polyhedron’s net polyhedron Discussion & presentation A, B, C 30 Definition,  its type, and its net Regular polyhedron Discussion & presentation A, B, C 31 Net of regular polyhedron Regular polyhedron Discussion & presentation A, B, C 32 2nd MIDTERM

### IV.      REFERENCES

A. J.M. Aarts. 2008. Plane and solid geometry. Springer Science: New York
B.  Wentworth, G and Eugene Smith, D. Solid Geometry. Ginn and Company
C.  Woodruff, BW and Eugene Smith, D. New Plane and Solid Geometry. Ginn and Company