Summer Bridge Program Courses
Introduction to Cellular & Molecular Biology
Best for:
Introduction to General Chemistry
Best for:
Students entering introductory college chemistry.
Topics Covered:
Transform complex chemical formulas into manageable, step-by-step math. This track sharpens your problem-solving skills in advanced stoichiometry, aqueous net ionic equations, gas laws, and thermodynamics, while demystifying atomic structures and periodic trends.
Students entering introductory college cellular biology.
Topics Covered:
Master cellular fundamentals without the stress of a college GPA. This track explores cell structure, membrane transport, protein targeting, and energy production (respiration and photosynthesis), while introducing core genetics, mitosis, meiosis, and gene expression.
Introduction to Organismal Biology
Best for:
Students entering introductory college organismal biology.
Topics Covered:
Build the analytical skills needed to conquer organismal biology. This course covers biological hierarchies, natural selection, genetics, pedigree analysis, and quantitative tools (like chi-square and Hardy-Weinberg), alongside plant and animal evolution and ecosystem population dynamics.
Introduction to Organic Chemistry
Best for:
Students entering college organic chemistry.
Topics Covered:
Demystify the logic of "O-Chem" by learning patterns rather than passive memorization. You will get a vital head start on molecular structures, stereochemistry, acid-base strengths, and the core substitution, elimination, and addition mechanisms that dominate the course.
Introduction to Calculus
Best for:
Students entering introductory college calculus.
Topics Covered:
Eliminate the intimidation of university-level mathematics. This program bridges the gap from precalculus to advanced topics, mastering graphical limits, continuity theorems, differentiation rules, optimization problems, and introductory integration.
Introduction to Algebra-Based Physics
Best for:
Students entering introductory college physics.
Topics Covered:
Learn to translate real-world physical scenarios into mathematical equations with ease. This course builds a bulletproof foundation in 1D/2D kinematics, Newton's laws of motion, work-energy theorems, momentum, and rotational dynamics.