Learning objects

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Revision as of 13:35, 23 February 2009 by Rsmoralejo (talk | contribs)
Title Subject Description
Atomic Orbitals, Energy Levels of Chemistry Predict the relative energy levels of these atomic orbitals.
Atomic Orbitals, shapes of Chemistry Classification of orbitals according to shapes, sizes and levels.
Belt Friction Engineering Science Determine the effect of friction on the pulls on a belt over a fixed drum.
Centric Loading Engineering Science Determine the average normal stress of a force acting perpendicular to a cross section.
Colors Art Associate colors with different meanings, distinguish the different meanings of color in Philippine culture and recognize color in art works by Filipino artists.
Covalent Bonding Chemistry Define covalent bonding, explain how covalent bonds are formed and distinguish between polar

and non-polar bonds.

Cubic Equation Mathematics Solve cubic equations.
Demand and Supply Analysis Economics Identify quantity demand and distinguish between a change in quantity demanded and a

change in demand.

DNA Supercoiling Bio-chemistry Define Twist, T; Writhe, W; Linking number, L and identify the conditions that cause positive and negative supercoiling.
Hemoglobin Bio-chemistry A learning object that analyzes the relationship between hemoglobin's three-dimensional structure and its function.
Hybridization Chemistry Explain bond angles not predicted by the use of pure atomic orbitals; Identify hybrid orbitals used by atoms in a given molecule
Impending Motion Engineering Science Determine the direction of friction based on the direction of impending slippage.
Ionic Bonding Chemistry Explains the basis of bonding in metals and correlate metallic bonding to the properties of metals.
Line of Impact Engineering Science Define the line of impact.
Market Supply Economics Define supply, supply curve, quantity supplied, and distinguish between change in quantity supplied and change in supply.
Material Properties Engineering Science Differentiate ductile materials from brittle materials
Metallic Bonding Chemistry Explain the basis of bonding in metals and correlate metallic bonding to the properties of

metals.

Moment of a Force Engineering Science Determine if a force has a moment about a given axis.
Newton's Second Law Engineering Science Determine the effect of the resultant force and mass on the acceleration of a body.
Origami Tesselletions Mathematics Explain origami tessellations.
Projectile Motion Engineering Science Analyze the motion of a particle undergoing projectile motion.
Quadratic Equation Mathematics Solve quadratic equations.
Sectional Views Engineering Science Identify a sectional view based on two given views of an object.
Trisecting an Angle Mathematics Demonstrate how to trisect an angle.
Valence Bond Theory Chemistry Application of valence bond theory to represent a covalent bond