MS-PS4-1 Mathematical Models of Waves Lab

$7.00

An engaging lab activity designed to enhance students’ ability to interpret, analyze and draw graphs to quantitatively describe the properties of a mechanical wave. Aligned with NGSS MS-PS4-1.

Description

MS-PS4-1 Mathematical Models of Waves Lab Preview

SNAPs Lab Stations Activities require students to use science, math, literacy, problem-solving and engineering skills. They are designed to enhance students’ understanding of scientific concepts and help students apply scientific ideas to the real world. Each station activity promotes skills so to develop students into proficient and competent scientific thinkers.

SNAPs lab activities have five components:
• Science Skills Station to develop science skill proficiency
• Narrative Station to build science literacy
• Assessment Station to evaluate learning and understanding
• Problem-Solving Station to foster engineering design
• Synthesis Station and Project to inspire higher-order learning


DIGITAL LABORATORY – DISTANCE LEARNING & DIGITAL CLASSROOMS
• This lab is offered in a digital format to support digital classrooms & distance learning.
• The digital lab activity is designed to work with Google Slides and Microsoft PowerPoint
• The digital lab activity CANNOT be edited. However:
– Students can manipulate text boxes
– Students can create tables, graphs and diagrams
– Students can insert images and drawings

GOOGLE FORM ASSESSMENT STATION
• The assessment station is offered as a self-grading Google Form.
• Questions are all short answer and are 100% editable.
• Suggestions for use are included in the download.

DISTANCE LEARNING COMPATIBILITY
SNAPs lab activities are rated for their ease with distance – independent learning. Refer to the preview for more information about how well this laboratory works in a fully digital classroom and with distance learning.


EDITABLE DOCUMENTS
This download includes an editable word document (docx file) of all lab components:
• Pre-Lab and Post-Lab Activities
• The Lab Overview
• Lab Station Activities and Questions
• Directed Synthesis Project (when applicable)

Important Notes:
• Diagrams, illustrations, tables and graphs essential to lab activities are included
• Illustrative clipart is NOT included
• Editable documents and rubrics are included with the FREE SNAPs Setup Guide

Editable files allow you to:
• Edit the scope of the activities so to suit your students’ needs
• Edit the materials required based on resource availability
• Create single-period “mini-labs” using activities at the individual skills stations


The activities at each station in this lab are detailed below.

Mathematical Models of Waves Lab Stations Activity Learning Objectives
1. Interpret, analyze and draw graphs to quantitatively describe the properties of a mechanical wave.
2. Use mathematical equations to make calculations to describe a mechanical wave’s frequency, wavelength and velocity.
3. Manipulate physical models to explain how wave characteristics correspond with physical observations.

Science Skills Station
Students will use graphs to quantitatively and qualitatively describe the characteristics of transverse waves. They will create, analyze and interpret graphs of waves with different characteristics. Students will also make calculations to quantitatively describe a mechanical wave’s frequency, wavelength and velocity.

Narrative Station
Students will read short informational texts at this station about wave properties and using mathematical models to study waves. Specifically, students will read about using graphs and equations to describe wave properties.

Assessment Station
At this station, students will answer questions about key terms and ideas relating to the use of wave models to describe wave properties. Students must employ lower, mid and higher order thinking skills to answer these questions.

Problem-Solving Station
Students will use a wave machine to study wave characteristics. Students will use it to make physical observations of wave characteristics. Students will manipulate the wave machine so to better understand how changing one feature alters other wave characteristics.

Synthesis Station
Students will compose a CER (claim-evidence-reasoning) report to summarize the lab. Students are provided the claim statement and must support the claim with observations, data and other information gathered in the lab. Students will explain how the evidence supports the claim using scientific reasoning.

Synthesis Project
Students will have a choice of 11 projects. Refer to the SNAPs Lab Stations Best Practices and Setup Guide for directions and suggestions on how to conduct the project.


This download includes:
• A pre-lab assignment and post-lab reflection
• Directions and questions for each lab station
• Student recording sheets
• Teacher Key

Additional Materials Required:
2 Calculators
Duct tape or packing tape
50 12-inch wooden skewers
Dots candy (4 boxes/200 candies)
Two chairs
Stopwatch (optional)
Ruler (optional)

Note: The in-person version of this lab requires 30 minutes of teacher preparation.

LINKS TO VIDEOS
This laboratory requires internet to access videos. Videos are hosted on SafeShare.TV so to safely watch and share educational YouTube videos without ads, comments and other distractions. Link(s) to SafeShare.TV included. Full link to original YouTube video(s) included.

NEXT GENERATION SCIENCE STANDARDS
This laboratory satisfies NGSS MS-PS4-1. It combines the three dimensions of science learning – science and engineering practices, disciplinary core ideas and crosscutting concepts – to meet the standard. This lab also makes interdisciplinary connections to STEM, Math CCSS and ELA CCSS to build the appropriate skills.

TERMS OF USE
• All rights reserved by Stephanie Elkowitz.
• This product is to be used by the original purchaser only.
• Intended for classroom and personal use only.
• Copying for more than one teacher, classroom, department, school, or school system is prohibited.
• This product may not be distributed or displayed digitally for public view.
• Failure to comply is a copyright infringement and a violation of the Digital Millennium Copyright Act (DMCA).