F&I 1: Newton's 2nd Law (HS), F&I 1: Newton's 3rd Law (MS), F&I 2: Newton's 1st Law (MS), F&I 2: Newton's 3rd Law (HS), F&I 3: Electric/Magnetic Forces (MS), F&I 4: Gravity & Electrostatic Forces (HS), F&I 4: Gravity & Mass (MS), F&I 5: Electricity & Magnets (HS), F&I 5: Force Fields (MS), Forces & Interactions, Physical Science, S&P 2: Investigating Electrical Force (HS), Structure & Properties of Matter, W 1: Graphing Waves (MS), W 1: Wave Relationships (HS), W 2: Wave Behavior (MS), W 3: Modeling Electromagnetic Radiation (HS), Waves & Electromagnetic Radiation

The physics of pollinator attraction

The physics of pollinator attraction SUMMARY: This article focuses on the physical properties of plants that have evolved to help them select the appropriate pollinators and discourage non-pollinators (nectar stealers). The first feature the article addresses is the shape of the cells. Flower petals often have cone-shaped cells to help scatter more light. This gives… Continue reading The physics of pollinator attraction

F&I 4: Gravity & Electrostatic Forces (HS), Forces & Interactions, Physical Science, S&P 1: Periodic Table Patterns (HS), S&P 2: Investigating Electrical Force (HS), S&P 4: Molecule Traits (HS), Structure & Properties of Matter

A Review of Microbial Biosorbents

A New Strategy for Heavy Metal Polluted Environments: A Review of Microbial Biosorbents SUMMARY: Heavy metal pollution is a serious environmental problem and the chemical/physical means of getting rid of them are either too expensive, not effective for low quantities of pollutants, or produce a lot of toxic waste. One solution is to use microbes… Continue reading A Review of Microbial Biosorbents