The course covers only mathematics and its application in various other subjects. You can join this course at any grade, its application in various other subjects. You can join this course at any grade, from third grade to college. The focus is on learning concepts, derivation of formulae, and visualization.
If you are preparing for SAT, STEP, or Olympiad exams, this is a good option for you. If you are planning to pursue Engineering, Math, Physics, Economics, or AI/ML as your career, this will help you immensely.
The course starts with elementary concepts and progresses to more advanced concepts. The pace of the progress is determined by the individual students.
Our experience has shown that single student batches under-perform. So, unless the objective and topics are short and well defined, we don't entertain single student batches. We prefer a minimum of three.
Look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program. Please note that the objective of this course is not to teach you programming, but programming is an essential medium that allows you to experiment with what-if scenarios and visualization.
The course covers physics, chemistry and biology up to 10th grade. If you are in grade above 10, see physics , chemistry and biology courses separately. The focus is on learning concepts, visualization and what-if scenarios.
We rely heavily on programming to learn concepts, experiment with what-if scenarios, and visualise outcomes. You don't need to have any prior skills in programming to take this course.
Our experience has shown that single student batches underperform. So, unless the objective and topics are short and well defined, we don't entertain single student batches. We prefer a minimum of three.
Though we discourage memorization, repetitive practice, and homework, our AI-backed modules generate challenging problems and conceptual networks that enable faster learning. The students get a better level of practice in a shorter time. As our modules generate AI/Algorithm based problems, they can generate, theoritically, an infinite number of unique questions.
Take a look at some of the sample programs you might complete if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
SyllabusWe emphasise modern modelling tools, graphs, flowcharts, network diagrams, thought experiments, and strong calculation skills.
We cover all the standard concepts, starting with the basics and moving to the topics related to students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Have a look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
Learn English vocabulary, grammar and literature. We convert any plain text into an intelligent module that allows you to learn English as well as the subject matter of the text. The AI/ML and algorithm models create problems that are analytical, contextual and help you learn new things every time you run them. Spend some time regularly with our English modules and you will realize how fast your English improves.
If you are preparing for Spelling Bee, or trying to improve your reading and writing skills, this is a good option for you. Please note that this course is not related to any grade.
We cover all the concepts of physics related to the students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Have a look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
The course covers physics and the portions of mathematics required for it, which is quite substantial. You can take this course from 8th grade to college. If you are under 8th grade, see Science course. The focus is on learning concepts, derivation of formulae, and visualization.
If you are preparing for SAT, STEP, or International Physics Olympiad exams, this is a good option for you. If you are planning to pursue engineering, physics, or AI/ML as your career, this will help you immensely.
We rely heavily on programming to learn concepts, experiment with what-if scenarios, and visualise outcomes. You don't need to have any prior skills in programming to take this course.
Our experience has shown that single student batches underperform. So, unless the objective and topics are short and well defined, we don't entertain single student batches. We prefer a minimum of three.
Though we discourage memorization, repetitive practice, and homework, our AI-backed modules generate challenging problems and conceptual networks that enable faster learning. The students get a better level of practice in a shorter time. As our modules generate AI/Algorithm based problems, they can generate, theoritically, an infinite number of unique questions.
Take a look at some of the sample programs you might complete if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
SyllabusWe cover all the concepts of physics related to the students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
The course covers chemistry and the portions of mathematics and physics required for it. You can take this course from 8th grade to college. If you are under 8th grade, see Science course. The focus is on learning concepts, visualization and what if scenarios.
If you are preparing for SAT, STEP or any other competitive exam that requires strong chemistry, this is a good option for you. If you are planning to pursue engineering, chemistry, or AI/ML as your career, this will help you immensely.
We rely heavily on programming to learn concepts, experiment with what-if scenarios, and visualise outcomes. You don't need to have any prior skills in programming to take this course.
Our experience has shown that single student batches underperform. So, unless the objective and topics are short and well defined, we don't entertain single student batches. We prefer a minimum of three.
Though we discourage memorization, repetitive practice, and homework, our AI-backed modules generate challenging problems and conceptual networks that enable faster learning. The students get a better level of practice in a shorter time. As our modules generate AI/Algorithm based problems, they can generate, theoritically, an infinite number of unique questions.
SyllabusWe emphasise modern modelling tools, graphs, thought experiments, and strong calculation skills. We mostly use programming to achieve them. We use smiles, inchi, and other notations to enable better understanding and visualization. Graphs, process flowcharts, and network diagrams are heavily used to achieve this objective.
We cover all the concepts of chemistry related to the students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Take a look at some of the sample programs you might complete if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
Also, have a look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
We don't offer a separate course in biology.
Though we discourage memorization, repetitive practice, and homework, our AI-backed modules generate challenging problems and conceptual networks that enable faster learning. The students get a better level of practice in a shorter time. As our modules generate AI/Algorithm based problems, they can generate, theoritically, an infinite number of unique questions.
We cover all the concepts of biology related to the students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Have a look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.
Social Studies
We don't offer a separate course in Social Studies. If you are in a grade below 10, you may join our regular course which includes social studies.
We use extensively timeline charts, network maps of events and places, and data driven comparison of historical events to learn better.
We cover major topics and events related to the students' grades. We go beyond and follow a vertical map of any concept. The students are encouraged to bring their own topics or even the full syllabus. However, we cover them in our own way, making sure the concept network is fully covered.
Have a look at some of the sample programs you might do if you join our program. Please note that these are just snapshots of what is actually done, just to illustrate the point of what we do during the program.