Grades:
6th Grade, 7th Grade, 8th Grade
In this lesson, students will show how heat transfers into an egg during the hard-boiling process, and additionally, different methods of how heat can transfer out of an egg during the cooling process
Grades:
5th Grade
Can a water fountain be solar powered? YES! In this engaging lesson, students will engineer a solar powered water fountain to show how energy transformed and transferred throughout their system. Each
Grades:
6th Grade
In this hands-on lesson, students will construct a paper windmill. They put it to the test by using a fan to see how their fan holds up to the wind. This is a great way to cover science, engineering
Grades:
1st Grade
What is the life cycle of a butterfly? How do butterflies use their wings? Answers to these questions and more are in this engaging lesson. The challenge for the students is to create a butterfly
Grades:
7th Grade
Students will learn the parts of the microscope, how to calculate the magnification, how to focus the microscope, as well as draw what they see in the field of view. Students will also write their
Grades:
1st Grade
In this lesson, students will watch seeds grow on a damp sponge by measuring, journaling and observing. They will observe how the roots and shoots grow.
Grades:
6th Grade
Students will explore energy, electricity, and engineering in this hands-on lesson using the Kidwind kit to create a wind turbine.
Grades:
2nd Grade, 5th Grade, 6th Grade, 8th Grade
This can be taught at different grade levels, diving deeper when possible. Just delete what you don’t need. Students will be creating their own crystal by following the scientific method, collecting
Grades:
4th Grade, 5th Grade, 6th Grade
Summary: Students will design and create a model of a flowering plant that correctly displays its external structure. Materials: Straws, toothpicks, felt, paper, string, wooden skewers, modeling clay
Grades:
5th Grade
This is the first lesson for the 5th grade life science unit involving environmental factors and organisms. The materials needed are two articles, highlighters, and either a laptop or tablet to
Grades:
3rd Grade
Students will describe the role of pollinators and explain their effects. They will be able to identify how the life cycle of a plant and a pollinator are connected. Students will also get to explore
Grades:
7th Grade
Students use their knowledge about cells and their organelles to create a dichotomous key to help guide others' thinking to decide if a cell is a plant cell or animal cell. Students need access to
Grades:
9th Grade, 10th Grade
This lesson plan focuses around 4 key topics, with activities for each. The plan covers renewable energy, solar energy, why solar energy is important, and what the children can do to conserve energy
Grades:
Kindergarten, 1st Grade
In this fun lesson, students will develop a simple sketch and a physical model of a float to illustrate how the shape of an object helps it function as needed to solve a given problem. They will then
Grades:
5th Grade
This hands-on lesson covers balanced and unbalanced forces. Students use the skills they have already been taught to apply them to a real-world situation involving rockets. You will need 500mL bottles
Grades:
4th Grade, 5th Grade
In this hands-on lesson, students design a safety device (car/seatbelt) that can keep an egg (passenger) safe during a collision. The goal is to protect the egg from cracking during a roll down a ramp
Grades:
3rd Grade, 4th Grade, 5th Grade, 6th Grade
Students discover kite-making in this hands-on lesson! They create a kite with a variety of materials and test out the final product. This lesson can be adapted to fit different grade levels.
Grades:
7th Grade
This is Task 4 (Lesson 4) of four tasks (lessons) of an overall project of “Escaping 7th Grade Science Room." Students will construct a marshmallow device to propel marshmallows at force and collect
Grades:
7th Grade
This is Task 3 (Lesson 3) of four tasks (lessons) of an overall project entitled “Escaping 7th Grade Science Room”. Students will construct a 3D model of both an animal cell and human cell. They will
Grades:
8th Grade, 9th Grade, 10th Grade
In this lesson, students will be introduced to the concept of osmosis, then investigate how solutions of various salt concentrations influence the size of plant cells.
Grades:
5th Grade
For this 90 minute lesson students are going to watch an introductory video about how we inherit features and then they will do research on a website. In the project they will fill out a survey
Grades:
9th Grade, 10th Grade, 11th Grade
In this lesson, students will be introduced to the concept of homeostasis with online research and then investigate how feedback mechanisms are used to maintain homeostasis during exercise during an
Grades:
6th Grade
Students explore the limiting factors of yeast over 2-3 days. The materials needed are yeast, sugar, water, ice, tea kettle, empty soda or water bottles, balloons, graduated cylinder, string, ruler
Grades:
5th Grade
Students gain a deeper understanding of the concepts of balanced and unbalanced forces in this lesson. They will be able to identify the effects that balanced and unbalanced forces have on the motion
Featured Lesson Plans
Check out these notable lesson plans.
Featured
A Shocking Dystopia: STEM Adventures in The City of Ember Part 2 of 4: A Way to See in the Dark
Grades:
4th Grade
This lesson is PART 2 of a four-lesson unit, which focuses on futures thinking, the phenomenon of electricity, closed-system agriculture, and water as a renewable energy resource. “The City of Ember”
Featured
A Shocking Dystopia: STEM Adventures in The City of Ember Part 1 of 4: Blackout! Community Circuits
Grades:
4th Grade
This lesson is PART 1 of a four-lesson unit, which focuses on futures thinking, the phenomenon of electricity, closed-system agriculture, and water as a renewable energy resource. “The City of Ember”
Grades:
6th Grade, 7th Grade, 8th Grade
Students will be able to collaboratively build, and program a simple robot using Lego Spike Prime kits. Students will demonstrate basic skills in robotics and coding by successfully constructing their