Curated OER
Measuring Beads
Students compare the weight of the students's favorite soft toys directly and then indirectly using beads.
Curated OER
Using Averages
In this math worksheet, students compute the range, mean, median and modal weight of candy bars from two machines. Students write a short essay about which machine is using too much chocolate and which is more reliable.
Illustrative Mathematics
Log Ride
The rides at a theme park always have limits on weight or number of riders. This makes a natural example of the use of inequalities to solve real-world problems. Learners explore intuitive solutions using substitution to solve the...
Curated OER
Vector Lab
Here is a math lab that helps young mathematicians understand the real-life meaning for vector addition. By building a model using spring scales and washers as weight, and then calculating the vector addition using two different methods,...
Carnegie Mellon University
Nuclear Energy
Extensive background material, clear objectives, and more are provided to help you teach an introduction to nuclear power. Learners will be able to explain how nuclear power is generated and how it compares to coal-created power. Provide...
Blackboard
Advanced Placement English Literature End of Year Project
The projects on this list, designed specifically for AP English literature, should challenge even your best students. Although the activities would certainly provide opportunities to review for the exam, the assignments are complex and...
Curated OER
Why Do Things Fall?
In this science worksheet, students complete a paragraph using 15 given terms. For example, "How can a spring be used to measure force?"
Curated OER
Making It Balance
Students listen to story, "The 100-Pound Problem," compare their weight with character in story, and weigh different classroom items using nonstandard units and standard units. They experiment with different items that can make scale...
EngageNY
Two-Step Problems—All Operations
Step 1: Use the resource. Step 2: Watch your class become experts in solving two-step problems. Scholars learn to solve two-step word problems in context. They use tape diagrams and algebraic techniques to break the problem into two,...
Urbana School District
Forces
Is your class struggling with Newton's Second Law? Then show them a presentation that covers everything physics scholars need to know about forces. Starting with gravity, the slides focus on Newton's Laws of Motion, and end with an...
Curated OER
Force Diagrams
Seeming incomplete, this slide show introduces physical science novices to the balancing of forces and drawing force diagrams. The first seven slides work well to meet this purpose. The remaining slides, however, turn viewers over to...
Cornell University
Buoyancy
Swimmers know to float by turning their bodies horizontally rather than vertically, but why does that make a difference? In an interesting lesson, scholars explore buoyancy and the properties of air and water. They test cups to see which...
Curated OER
Pounds and Ounces
In this pounds and ounces worksheet, students solve 3 story problems in which the best answer from 3 choices is circled. All pertain to weights in pounds and ounces; students are asked to use a balance scale and 1 pound measure but no...
Curated OER
"How Do You Measure Up?"
Fourth graders explore basic measurements by analyzing their own bodies. In this human anatomy lesson, 4th graders identify the units used to measure a human body such as centimeters, inches, ounces and pounds. Students complete a...
Curated OER
Grams and Kilograms
Fourth graders participate in scavenger hunts for objects that weigh a gram and a kilogram. In this metric measure lesson, 4th graders use a spring scale to measure objects they believe weigh a gram and a kilogram. Students complete...
Physics LAB
Freebody Diagrams #3
In this freebody diagram worksheet, students solve 10 problems including matching proper equations to the diagrams, finding weights of objects, determining when the normal equals the object's weight and matching the proper expression for...
Curated OER
Statistics
For this statistics worksheet, students solve and complete 6 different problems that include determining various types of statistics. First, they determine the data set where the median value is equal to the mean value. Then, students...
Curated OER
Measurement of Objects Using Similar Triangles in The Plane
Young scholars use similar triangles and a sight tool to find the height and distance between large objects. In this similar triangles lesson plan, students use a constructed sight tool to measure the distance and height of an object...
Curated OER
Density - An Introduction
Students experiment with objects of different densities. In this density lesson, students examine same-sized objects with different weights, then look at a teacher explanation of density. Students make wave bottles and a density jar to...
Curated OER
Why Do Things Fall?
In this universal gravitation activity, students fill in the blanks to complete sentences with 11 given terms about gravity, inertia, acceleration, mass and force. Students also answer 7 questions about mass, weight and force.
Curated OER
Physics: Forces and Motion
Students recognize the effect of Earth's gravity on an object's weight. In this force and motion instructional activity students understand the role of gravity when you drop an object. Students experiment with small items. Students...
Curated OER
NEWTON'S 3RD LAW
High schoolers examine the formal definition of Newton's 3rd law: "forces always originate in pairs, equal in magnitude and opposite in direction." --The informal, qualitative version: "Each action has an equal and opposite reaction."
Curated OER
I've Got That Sinking Feeling
Students design a simple boat and predict how much weight it can carry. They should also discover why objects float or sink and how this can be determined experimentally. A great lesson on buoyancy!
Curated OER
Universal Gravitation Worksheet
In this universal gravitation worksheet, learners answer thirteen questions using the equation for universal gravitation, and force equals mass times acceleration.