Math is much like a stack of building blocks - one has to gain understanding in one area before effectively "building" upon another area. Regrettably, most teachers move on to tackle more convoluted concepts before the students are actually ready.
I am no Einstein. Nor do I claim to be as brilliant as Alan Turing. But, I will spare no effort to help you through the muck and mire of math and physics. Over the years, I have created more than a thousand STEM modules that will help you backtrack far enough to reinforce your shaky foundation and fill in the gaps with a deeper comprehension of the basic and complex concepts.
Modules include hacks on how you could crack your math and physics tests!
- Lord Nigel Jeon, Founder & Content Creator
A sample of our failsafe and comprehensive STEM modules:
The One with Formative Assessment 3
General Physics: Laws of Motion
The One with Lesson Playlist 9
Research 2: Statistical Treatments
The One with Lesson Playlist 7
Research 2: Statistical Treatments
The One with Lesson Playlist 3
General Physics
The One with Lesson Playlist 2
Basic Calculus
The One with Test-taking Strategies and the SAT (Part 1)
General Academics
The One with More Test-taking Strategies and the SAT (Part 2)
General Academics
Our STEM modules can only be accessed by De LaSalle Zobel account holders.
This is in accordance with the DLSZ data privacy policies.
SAT
Math
Limit of exponential, logarithmic, and trigonometric functions
The derivative of a function and the Slope of the tangent line
The differentiation rules for Trigonometric and exponential functions
Differentiation of logarithmic and inverse Trigonometric functions
Procedure for normal approximation to discrete distributions
Roots of a quadratic equation (characterizing using the discriminant)
Differentiating a geometric sequence from an arithmetic sequence
Properties to find measures of quantities involving parallelograms
Physics
Center of mass, impulse, momentum, and collision Word Problems
Rounding off, error margins, scientific notation, and significant figures
Differentiating accuracy from precision in a physical setting
The least count concept in estimating errors associated with single measurements
Verbal descriptions of physical situations in one dimension into mathematical descriptions
Relationships of distance, velocity, and acceleration in motion graphs
Solving for unknown quantities in equations involving one-dimensional UAM
Identifying components of projectile motion in the real world
Uses of radio, microwave, infrared, visible, ultraviolet, x-ray, and gamma-ray regions
Applications of Newton’s Laws to single-body and multibody dynamics
1st law of thermodynamic processes: adiabatic. isothermal, isobaric, isochoric
Stable, unstable, and neutral equilibria in potential energy diagrams
Relation of momentum, impulse, force, and time of contact in a system
Chemistry
Describing and making representations for the particles in each phase of matter
Application of precision and accuracy in a laboratory setting
Visualizing compounds through chemical formulas, structural formulas, and models
Calculating the mass of a given number of moles of an element
Calculating the mass of a given number of moles of a compound
Calculating the number of moles given the mass of an element
Calculating the number of moles given the mass of a compound
Calculating the mass of a given number of particles of an element
Calculating the mass of a given number of particles of a compound
Calculating the number of particles given the mass of an element
Calculating the number of particles given the mass of a compound
The relationship of percent composition and chemical formula
Calculating the percent composition of a compound given the formula
Describing and differentiating the types of intermolecular forces
Predicting the possible intermolecular forces for a molecule
Differentiating the structure of crystalline and amorphous solids
Calculating the empirical formula from the percent composition
Balanced chemical reactions and the law of conservation of mass
Relationship of reactants and products in a chemical reaction
Mathematical relationship between pressure, volume, and temperature of a gas
Using gas laws to determine the pressure of a gas under certain conditions of change
Using gas laws to determine the volume of a gas under certain conditions of change
Using gas laws to determine the temperature of a gas under certain conditions of change
Relating mole fraction and partial pressure of gases in a mixture
Applying principles of stoichiometry to determine the volume of gaseous reactants and products
Stoichiometry to determine the number of moles of gaseous reactants and products
Stoichiometry to determine the mass of gaseous reactants and products
Quantitative relationships of reactants and products in gaseous reactions
Describing the electronic structure of atoms in terms of main energy levels
Describing the electronic structure of atoms in terms of sublevels
Describing the electronic structure of atoms in terms of orbitals
Shortcuts and memorization methods for the electron configuration of atoms
Magnetic properties of the atom based on electronic configuration
Predicting properties of elements based on their periodic table position
Determining the polarity of a bond based on electronegativities of atoms
Solubility of a solid in a given amount of water at different temperatures
Molar mass of a solid from a change of melting point or boiling point in a solution
Biology
Disorders and diseases from malfunctions during the cell cycle
RespirationReaction processes and the role of ATP in energy coupling and transfer
Predicting genotypes and phenotypes of parents and offsprings
Mechanisms of change in population (generation to generation)
Relationships among organisms using the evidences of evolution
Students must register using their DLSZ email to view the complete set of STEM modules
(Includes indispensable tips on how to ace your STEM subjects!)