From exploring ecosystems to manipulating static electricity, 50 Nifty Thrifty STEM Activities gives your young scientist the chance to recreate mind-blowing, at-home experiments that are $10 or less! Educators Meagan Naraine and Tamir Mickens use their 10+ years of laboratory experience to help expand your child’s scientific horizons. 50 Nifty Thrifty STEM Activities offers: * 50 STEM EXPERIMENTS: Interactive activities rooted in science (life and physical), technology, engineering, and math that kids can learn. * EASY-TO-FOLLOW INSTRUCTIONS: A step-by-step instructional approach better…mehr
From exploring ecosystems to manipulating static electricity, 50 Nifty Thrifty STEM Activities gives your young scientist the chance to recreate mind-blowing, at-home experiments that are $10 or less! Educators Meagan Naraine and Tamir Mickens use their 10+ years of laboratory experience to help expand your child’s scientific horizons. 50 Nifty Thrifty STEM Activities offers: * 50 STEM EXPERIMENTS: Interactive activities rooted in science (life and physical), technology, engineering, and math that kids can learn. * EASY-TO-FOLLOW INSTRUCTIONS: A step-by-step instructional approach better guides kids through the STEM activities and projects. * ENGAGING GRAPHICS: Refer to real-life and illustrated graphics that make for entertaining interaction with the experiments. You’ll learn about: * CO2 Balloons * Wild, Wild Winds * Magical Flames * Crazy Cabbage Chemistry * Racing Rockets * And more! Help develop the next generation of young scientists!
Meagan Naraine is an experienced Science Educator and Curriculum Developer from Atlanta, GA. Using her Biology B.S. from Emory University, she taught 10th grade biology in Fulton County for 4 years, and currently teaches 8th grade physical science in Atlanta Public Schools. She has data showing more than 10% yearly growth in student achievement on standardized state assessments. Additionally, she is a NSF-DSPETL Teacher Fellow at Georgia State University. Through this, she earned her M.A.T. in Science Education/Broad-Field Science. Tamir Mickens is an experienced Instructional Coach, Science Educator, and Digital Content Creator from Atlanta, GA. He taught 11th grade physics and 8th grade physical science in Clayton County for 6 years, and has been a science Instructional Coach in Fulton County since 2019. Additionally, he has developed impressive talents in creating engaging and inclusive digital science curriculum. He is a proud undergraduate of Morehouse College and received his M.Ed. from Georgia State University.
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Dedication Page Lab Safety Guide Life Science Title Page Sticky Air: Analyzing Particulate Matter Breathing Leaves: Manipulating Reactants of Photosynthesis Slippery Slopes: Measuring Rising Sea Levels CO2 Balloons: Visualizing Nutrient Cycling Make It Rain: Simulating The Water Cycle Wild, Wild Winds: Modeling El Nino and La Nina How Stable Is It?: Analyzing Biodiversity in Ecosystems Water You Drinking?: Testing Drinking Water Quality Hoo Eats Hoo?: Examining Energy Flow In Ecosystems Death By Acid: Visualizing The Effects Of Acid Rain Nature’s Purification: Analyzing Soil Erosion Hermaphrodite Flowers: Dissecting Angiosperm Organs Over The Rainbow: Transporting Water Via Capillary Action The Ups and Downs of Pulses: Feeling Homeostasis Flamin’ Hot: Comparing Carbohydrates & Lipids To Chew Or Not To Chew: Activating Digestive Enzymes in Saliva Sunny Side Up: Denaturing Proteins in Eggs Fizzing Livers: Analyzing Enzymatic Rates Filthy Phones: Extracting & Culturing Bacteria Color Me Crazy: Analyzing Diffusion Rates Sink or Swim: Modeling Cell Membrane Structure Naked Egg-mosis: Modeling Osmosis & Tonicity This is Bananas!: Extracting Eukaryotic DNA Forensic Files: Examining DNA Fingerprint Patterns Heads or Tails: Modeling Principle of Dominance Battle Of The Beaks: Simulating Natural Selection Physical Science Title Page Mystery Of The Strong String: Comparing Ionic & Covalent Bonds Marsh-molecules: Counting Atoms & Elements Bipolar Lava Lamps: Observing Intermolecular Forces Layered Liquid Cake: Modeling Density of Liquids What’s The Matter?: Testing Law of Conservation of Mass Magical Flames: Observing A Decomposition Reaction Let’s Chalk About It: Manipulating Rate of Reaction Hot N’ Cold: Feeling Endo- & Exothermic Reactions Ice, Ice Baby: Changing States of Matter Chocolate Chip Bridges: Simulating Conductive Heat Transfer Pop Me, Please: Comparing Specific Heat Capacities Feeling Gassy: Testing Gas Laws Crazy Cabbage Chemistry: Testing pH of Acids & Bases Sweet Solutions: Manipulating Molarity of Solutions Wind ‘Um Up: Calculating Average Speed X Marks The Spot: Constructing Vector Diagrams Fallin’ For You: Relating Gravity & Air Resistance Keep Doing What You Do: Exploring Newton’s First Law Racing Rockets: Exploring Newton’s Second Law Slight Work: Calculating Mechanical Advantage Rough Around The Edges: Comparing Friction Forces Eggsploring Momentum: Relating Momentum & Impulse It’s Giving… Energy: Testing Law of Conservation of Energy Swing With Me: Relating Wavelength, Period, & Frequency All Bent Up: Analyzing Refractive Indexes of Mediums Opposites Attract!: Modeling Static Electricity In Insulators Electrifying Magnets: Manipulating Electromagnet Strength
Dedication Page Lab Safety Guide Life Science Title Page Sticky Air: Analyzing Particulate Matter Breathing Leaves: Manipulating Reactants of Photosynthesis Slippery Slopes: Measuring Rising Sea Levels CO2 Balloons: Visualizing Nutrient Cycling Make It Rain: Simulating The Water Cycle Wild, Wild Winds: Modeling El Nino and La Nina How Stable Is It?: Analyzing Biodiversity in Ecosystems Water You Drinking?: Testing Drinking Water Quality Hoo Eats Hoo?: Examining Energy Flow In Ecosystems Death By Acid: Visualizing The Effects Of Acid Rain Nature’s Purification: Analyzing Soil Erosion Hermaphrodite Flowers: Dissecting Angiosperm Organs Over The Rainbow: Transporting Water Via Capillary Action The Ups and Downs of Pulses: Feeling Homeostasis Flamin’ Hot: Comparing Carbohydrates & Lipids To Chew Or Not To Chew: Activating Digestive Enzymes in Saliva Sunny Side Up: Denaturing Proteins in Eggs Fizzing Livers: Analyzing Enzymatic Rates Filthy Phones: Extracting & Culturing Bacteria Color Me Crazy: Analyzing Diffusion Rates Sink or Swim: Modeling Cell Membrane Structure Naked Egg-mosis: Modeling Osmosis & Tonicity This is Bananas!: Extracting Eukaryotic DNA Forensic Files: Examining DNA Fingerprint Patterns Heads or Tails: Modeling Principle of Dominance Battle Of The Beaks: Simulating Natural Selection Physical Science Title Page Mystery Of The Strong String: Comparing Ionic & Covalent Bonds Marsh-molecules: Counting Atoms & Elements Bipolar Lava Lamps: Observing Intermolecular Forces Layered Liquid Cake: Modeling Density of Liquids What’s The Matter?: Testing Law of Conservation of Mass Magical Flames: Observing A Decomposition Reaction Let’s Chalk About It: Manipulating Rate of Reaction Hot N’ Cold: Feeling Endo- & Exothermic Reactions Ice, Ice Baby: Changing States of Matter Chocolate Chip Bridges: Simulating Conductive Heat Transfer Pop Me, Please: Comparing Specific Heat Capacities Feeling Gassy: Testing Gas Laws Crazy Cabbage Chemistry: Testing pH of Acids & Bases Sweet Solutions: Manipulating Molarity of Solutions Wind ‘Um Up: Calculating Average Speed X Marks The Spot: Constructing Vector Diagrams Fallin’ For You: Relating Gravity & Air Resistance Keep Doing What You Do: Exploring Newton’s First Law Racing Rockets: Exploring Newton’s Second Law Slight Work: Calculating Mechanical Advantage Rough Around The Edges: Comparing Friction Forces Eggsploring Momentum: Relating Momentum & Impulse It’s Giving… Energy: Testing Law of Conservation of Energy Swing With Me: Relating Wavelength, Period, & Frequency All Bent Up: Analyzing Refractive Indexes of Mediums Opposites Attract!: Modeling Static Electricity In Insulators Electrifying Magnets: Manipulating Electromagnet Strength
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