Fundamentos de las ciencias en la escuela secundaria: física, química y biología

A grade for the class is available if requested. Requirements for a grade are to complete all three tests and 6 of the at-home projects of the learner’s choosing.  

Save $40 when you use code DANLEYSAVE40 until Mar 25, 2025.

REFUND POLICY: Full refund until 12 hours after the first class meeting (6 hours in the summer).  

Course Overview:
15 Engaging Lessons covering core concepts in Physics, Chemistry, and Biology.

A 120-page course ebook filled with easy-to-understand explanations, diagrams, and examples.

Optional homework assignments with answers, at-home projects, and assessments to reinforce learning and track student progress.

Video replay available


Key Topics Covered:

Introduction to Physics: Basic principles of motion, force, energy, electromagnetic waves, the Second Law of Thermodynamics, Ohm’s Law and circuits

Understanding Chemistry: Models of the atom, reactions, the periodic table, chemical bonding, an introduction to organic chemistry 

Exploring Biology: Cells, protein structure and function, DNA structure and function, cell division, protein synthesis, genetic engineeering


Why Choose This Course?

Comprehensive & Structured: 15 detailed lessons that break down complex topics into manageable, digestible segments.

Interactive Learning: Includes optional assignments and assessments to ensure mastery of concepts, in class demonstrations, experiments, and worksheets 

Flexible Learning: Perfect for self-paced study (through watching the video recordings), home-schooling, or supplementary schoolwork.

Accessible Ebook: A 120-page, easy-to-follow resource available for download or printing.


Benefits for Students:

Gain a deep understanding of key scientific principles.
Develop critical thinking and problem-solving skills.
Prepare for more advanced science topics in high school.
Understand that learning is fun and science is exciting!


Course Features:
Level: Ideal for middle school students (grades 6-8).
Format: Video lessons, downloadable ebook, tests, at-home projects, and homework assignments (with answers) 
Completion Certificate: Perfect for showcasing academic progress.


Feedback from parents on this course: 

“This is a great intro course, suitable for a good range of age groups. It teaches a lot of foundational principles of physics, chemistry, and biology, with fun projects along the way. The teacher is responsive, knowledgable, and runs the classroom intelligently and efficiently. This is undoubtedly one of the best courses available on Outschool. Highly recommended.”

“This class was excellent. My 7th grader was very engaged and loved the teacher.”

“Amazing teacher and excellent class. Ms. Danley is a phenomenal teacher, she is extremely knowledgeable, very organized, provides resource material, in class work sheets, homework, and optional labs. My 6th grader learned a tremendous amount in this class and enjoyed it very much. Ms. Danley interacts really well with all learners and presents material in such a way they can understand. I highly recommend this class and this instructor.”

“Teacher Lora is a patient, supporting and hard working teacher with deep understanding of the subject. She is well planned and has given a well researched handout (study material).  Her classes has helped develop the skills and confidence that our daughter will carry forward into her classroom.  Thank you for instilling this love of learning and deeper interest in science into our child. “

“ Lora is really a great teacher. For us, the best teacher we’ve come across on Outschool. This science sample course will really give your student an in-depth intro. My child started the class knowing very little about chemistry, physics, and biology, but by the end of the course I was surprised how much they learned in a few months. So I thank Lora for sparking a new love for science with my child.”




Course Syllabus:

Students should have basic equation-solving skills for the physics portion of the course but a student who catches on quickly would probably be fine without it.  

Class 1 
 Studies of motion: speed, velocity, acceleration.  After introducing the topics and Galileo’s experimental determination of the earth’s gravitational constant, we will look at calculations involving these quantities.  

AT HOME PROJECTS START ON WEEK 2

Class 2 
Newton’s Universal Laws of Motion, gravity, mass, and weight.  We will explore how Newton’s Universal Laws of Motion apply to space travel as well as the world around us, distinguish between mass and weight and discuss how gravity affects weight.

At home project: BUILD A BALLOON CAR


Class 3 
Energy and the First Law of Thermodynamics.  We will look at energy, work, and power and the differences between kinetic and potential energy.  We will explore the first law of thermodynamics and methods of heat transfer.  

At home project: BUILD A PAPER ROLLER COASTER


Class 4 
The Second Law of Thermodynamics and electrical circuits.  We will explore the tenets of the Second Law of Thermodynamics and discuss entropy.  We will then take a look at electricity and simple circuits along with Coulomb’s Law and Ohm’s Law.

At home project: CREATE A LIGHT UP LED CARD


Class 5 
Electromagnetic Waves.  We will explore the relationship between electricity and magnetism.  We will discuss electromagnetic waves and their interaction with matter.  

At home project: MAKE A SOLAR POWERED OVEN


Class 6 
Models of the Atom.  We will discuss the history of the atom and the various models that led to our current understanding of the atom, the quantum mechanical model.  

At home project: MAKE A BOHR MODEL OF THE ATOM


Class 7 
The Periodic Table. We will talk about how elements are arranged on the periodic table according to their chemical properties along with discussions of isotopes, valence electrons, atomic mass, and atomic number.

At home project: SPEAK IN ELEMENTS (LEARN THE PERIODIC TABLE BY CREATING A GAME AND WEARABLE ART)


Class 8 
Chemical Bonding.  We will look at how atoms combine with ionic bonding and covalent bonding.  Students will understand how to draw basic Lewis dot structures and how to write basic formulas for ionic compounds.

At home project: MAKE YOUR OWN LAVA LAMP


Class 9 
Chemical Reactions and States of Matter.  We will learn how to balance chemical equations, examine the states of matter, and look at endothermic and exothermic reactions. 

At home project: MAKE ELEPHANT TOOTHPASTE 


Class 10 
Organic Chemistry.  We will examine the functional groups of alkanes, alkenes, alkynes, alcohols, carboxylic acids, and esters.  We will examine isomers, see how esters can be formed from alcohols and carboxylic acids, and look at distillation as a method of separating compounds by their boiling points.  

At home project: DISTILL YOUR OWN WATER


Class 11 
The Cell.  We will take a look at the construction of both plant and animal cells with respect to organelles and transport across the cell membrane and discuss photosynthesis and respiration.  

At home project: MAKE A 3-D MODEL OF A CELL


Class 12 
Proteins.  We will explore how proteins are constructed and how they keep our bodies running by functioning as enzymes.  We will also take a look at how drugs work to correct problems with enzyme function.  

At home project: EXPERIMENT WITH ENZYMES


Class 13 
DNA.  We will discuss the function of DNA and take a look at its structure.  We will also see how DNA is transferred to new cells in both mitosis and meiosis.  

At home project: CREATE A MITOSIS FLIPBOOK


Class 14 
The Genetic Code.  We will see how RNA functions to create proteins from the instructions given by DNA and will look at how mutations in the DNA can affect protein function.

At home project: HOW HIGH CAN YOUR SLIME BOUNCE


Class 15 
DNA manipulations.  We will explore how scientists are engineering DNA to produce insulin and other proteins artificially, how PCR can allow scientists to make large quantities of a particular stretch of DNA, and how DNA is used in forensics science to help catch criminals.  

At home project: EXTRACT YOUR OWN DNA