Our Level G Math & Problem-Solving Program targets students in Grades 11 and above, addressing intricate and complex mathematical topics with unique problem-solving strategies. This level prepares students for university-level mathematics and standardized tests such as the SAT, GMAT, and LSAT.
Program Highlights: Students will engage with advanced topics including exponents, radicals, polynomials, linear equations, systems of linear equations, and quadratic equations. The curriculum covers complex numbers, 3-D geometry, advanced trigonometry, arithmetic and geometric sets and series, probability, combinatorics, permutations, and combinations. Additionally, students will explore functions and graphs, elements of analytical geometry, and an introduction to calculus (limits, derivatives, and integrals). Higher-level logic problem-solving and preparation for standardized tests are also integral components of the program. Advanced word problems and math contest problems are integrated throughout the curriculum, and students can access our contest program for focused support as an add-on.
Key Achievements:
- Mastery of complex algebraic topics and problem-solving strategies.
- Advanced understanding of 3-D geometry, trigonometry, and analytical geometry.
- Proficiency in calculus fundamentals: limits, derivatives, and integrals.
- Enhanced problem-solving abilities through logic problems and test preparation.
- Preparation for university-level mathematics and standardized tests (SAT, GMAT, LSAT).
- Tackling advanced word problems to further develop problem-solving abilities.
- Participating in vibrant community events that enhance their CVs for competitive admissions.
Critical Thinking and Problem-Solving: Brain Power’s curriculum fosters independent thought, exploration, and insight development, empowering students as confident, creative thinkers ready to excel in mathematics, university studies, and beyond.
Homework Feedback: Students receive personalized feedback on their homework from expert instructors, ensuring continuous improvement and understanding.
FAQs
5) Games and puzzles: There are many maths-related games and puzzles that can help improve memory. Try crossword puzzles, Sudoku, and other number games that require you to recall important information and solve problems quickly. 6) Association: Associate maths concepts and formulas with mnemonics, images, and stories.
How to get God at math? ›
Studies show being good at math is a matter of hard work just as much, if not more, than innate talent. You can become good at math simply by dedication. Take time each day to practice math until the concepts start to click for you. If necessary, seek outside help.
What part of the brain is good at math? ›
For example, most language processing occurs in the brain's left temporal lobe. In contrast, mathematical processing is more widespread in the brain: it occurs in the frontal, parietal, occipital and temporal lobes of both left and right hemispheres.
How do you solve math in the brain? ›
6 Mental Math Strategies | Tips and Tricks for Students
- Rounding up to the nearest ten. ...
- Work from left to right. ...
- Use multiplication hacks. ...
- Bump the decimal over to easily find a percentage. ...
- Make guesstimates. ...
- Break down the problem.
Dyscalculia is a learning disorder that affects a person's ability to do math. Much like dyslexia disrupts areas of the brain related to reading, dyscalculia affects brain areas that handle math- and number-related skills and understanding.
Does high IQ help in math? ›
A study in the Journal of Neuroscience found that children with high IQs exhibit superior math abilities. That is because many cognitive tasks involved in IQ tests, such as pattern recognition and logical reasoning, are also integral to mathematical skills. But don't fret if math isn't your strong suit.
Can I train my brain to be good at math? ›
Whether it's repetition of certain gymnastic movements, or practicing a mathematical process, the neurons increase the strength and number of connections with one another as a result of repetition and practice. As they do, the skill becomes less difficult. With sufficient practice, it may become essentially effortless.
What type of thinkers are good at math? ›
Left brain students are strong in math and science, and can answer questions quickly.
Are mathematicians' brains different? ›
However, mathematicians differ from other people in two ways. First, in their brains, mathematical formulas occupy an inferotemporal region that we all use to recognize numbers. In mathematicians, compared to other participants, the activity of this region almost doubles whenever a number or an equation is flashed.
How to train your mind for math? ›
Here are some insightful tips and tricks that can help you excel in math:
- Break Down Complex Problems.
- Master The Basic Math Skills.
- Know The Importance Of Number Sense.
- Have A Regular And Consistent Practice.
- Establish A Routine.
- Focus On Understanding New Concepts.
- Create A Practice Math Test.
Math Study Tips
- Study outside of class regularly. ...
- Read your textbooks. ...
- Get good at taking notes class. ...
- Make summary sheets. ...
- Practice all problems until you have mastered the ability to solve and check them.
- Be aware of what topics you know well, which topics need more practice and which topics you don't know at all.
Dyscalculia is a condition that makes it hard to do math and tasks that involve math. It's not as well known or as understood as dyslexia . But some experts believe it's just as common. That means an estimated 5 to 10 percent of people might have dyscalculia.
How can I improve my math power? ›
Use your mind, memory, lessons, and discussions with your classmates to refine your math skills and build strong problem-solving strategies. Try to do as much in your head as possible. Once you've done a calculation in your head, do it with pencil and paper. See if you have the same answer.
How can I increase my IQ in maths? ›
Numerous studies have established a link between regular math practice and increased IQ scores. These studies demonstrate that engaging in mathematical activities stimulates various cognitive functions, such as problem-solving, logical reasoning, and pattern recognition, which contribute to overall intelligence.
