Chemistry Concepts & Practice Problems
SAT Score Range
•
4 sessions
•
SP
SH
SS
+1
This series ended on January 24, 2026. All 1:1 and group chats related to this series are disabled 7 days after the last session.
About
During this three-session series, I will provide practice problems for each subject. While I will go over the specific necessary concepts before doing the problems, it is preferred that you already have some familiarity with chemistry fundamentals. Bring a pencil and paper for scratch work, along with a calculator (you can use your device's calculator).
Tutored by
Sessions
✋ ATTENDANCE POLICY
You are free to attend/skip whichever sessions you want.
SESSION 1
3
Jan
SESSION 1
Other Topics
Other Topics
Sat 1:00 AM - 2:00 AM UTCJan 3, 1:00 AM - 2:00 AM UTC
KINETICS
We will learn about the Arrhenius equation and rate laws before we dive into a couple of practice problems. This session only requires that you know the very basics of reactions, although the problems will be easier if you already have a grasp on kinetics.
SESSION 2
10
Jan
SESSION 2
Other Topics
Other Topics
Sat 1:30 AM - 2:30 AM UTCJan 10, 1:30 AM - 2:30 AM UTC
ELECTROCHEMISTRY
We will learn about the Nernst equation and electrochemical cells before we dive into a couple of practice problems. This session requires that you already understand equilibrium, including equations such as delta_G = -RTlnK.
SESSION 3
17
Jan
SESSION 3
Other Topics
Other Topics
Sat 1:00 AM - 2:00 AM UTCJan 17, 1:00 AM - 2:00 AM UTC
ORGANIC CHEMISTRY
I will only teach minimally about the concept of nucleophiles and electrophiles, since reactions in organic chemistry usually require knowing the reaction on a case-by-case basis, which is not feasible to teach in such a short timeframe. Thus, this session requires that you already know a few reactions in organic chemistry, and we will mostly be doing practice problems.
SESSION 4
24
Jan
SESSION 4
Other Topics
Other Topics
Sat 1:00 AM - 2:00 AM UTCJan 24, 1:00 AM - 2:00 AM UTC
ELECTROCHEMISTRY
We will learn about the Nernst equation and electrochemical cells before we dive into a couple of practice problems. This session requires that you already understand equilibrium, including equations such as delta_G = -RTlnK.