Tracy Dang

Looking for an engaging and effective way to ensure students who miss lab days don’t fall behind? Our Virtual Sheep Brain Dissection is the ultimate alternative lab experience! Why Teachers Love It:✅ Perfect for Makeup Labs – No need to schedule additional lab sessions or worry about missed learning opportunities. This virtual dissection ensures all students stay on track. ✅ Highly Interactive & Engaging – Students label brain structures, analyze anatomical relationships, and answer critica

Bring muscle contraction to life with this hands-on, student-centered lab designed for high school Biology or Anatomy & Physiology! This engaging lesson uses modeling, data analysis, and sequencing to help students truly understand the sliding filament theory—not just memorize it. 🔥 What’s Included: ✔ 3 Interactive Lab Stations 🧬 Muscle Fiber Structure Model – Students build a physical model to understand organization from myofibril → muscle 🟠 Muscle Contraction Flow Map – Students s

Take muscle contraction to the next level with this hands-on + performance-based project where students don’t just learn—they build, move, and explain the sliding filament theory like real scientists. This project challenges students to create a working 3D model of a sarcomere that SHOWS movement and record a step-by-step video explanation of muscle contraction. 🔥 What Makes This Different: 👉 Students must physically demonstrate contraction and relaxation 👉 Includes a required video

🧠 Nervous System Rotational Mini Labs 7 Hands-On Stations That Make the Nervous System Click Stop lecturing. Start modeling. This 7-station rotational lab transforms your nervous system unit into a high-engagement, high-rigor learning experience. Students rotate through 10–12 minute mini labs that model real neural processes — from reaction time and synaptic transmission to reflex arcs and brain mapping. Every station connects structure → function → behavior. 🔬 What’s Included ✔ 7 structur

🧠 Nervous System Case Study Project Clinical Thinking Meets Creative Rigor Transform your nervous system unit into a real-world medical investigation. This comprehensive, standards-aligned case study project challenges students to step into the role of a neurologist. Instead of memorizing disorders, students create a medically accurate fictional patient grounded in research and build a full diagnostic profile from symptoms to prognosis. 🔬 What Makes This Activity Different? This is not a

Rigorous • Student-Centered • NGSS-Aligned • Real-World MedicineStudent Sample- VaricoceleTurn your reproductive system unit into an authentic medical investigation that gets students thinking, writing, analyzing, and presenting like real healthcare professionals. This Reproductive System Case Study Project is a fully structured, high-engagement assignment where students create their own fictitious patient that has real symptoms and diagnose a real reproductive disorder through a fictional pa

🧠 Sheep Brain Dissection – Experimental Design Lab Student-Designed. Data-Driven. Clinically Rigorous. Move beyond “cut and label.” This advanced sheep brain dissection lab transforms a traditional anatomy activity into a full experimental design experience. Students don’t just dissect — they design, justify, measure, compare, and reflect using real anatomical language and quantitative data. This lab is structured to elevate Anatomy & Physiology from procedural to professional. 🔬 What Makes

🧠 Brain Region Detective – 7-Station Gallery Walk Clinical Reasoning Through Movement & Collaboration Turn brain localization into an engaging, high-energy gallery walk that forces students to think like neurologists. In this structured 7-station rotation, students analyze real-world neurological scenarios and use evidence to determine which brain region is affected. Every station reinforces structure → function → behavior relationships using a CER format. 🔄 How It Works 🧩 Phase 1: Gallery

Teach muscle contraction with clarity, engagement, and depth using this complete 2-day lesson bundle! This resource moves students from basic identification → deep understanding → scientific explanation, making it perfect for Biology or Anatomy & Physiology classrooms. 🔥 What’s Included: 📄 Day 1: Muscle Contraction Activity Worksheet Students build foundational understanding of the sarcomere through: Labeling thick (myosin) and thin (actin) filaments Identifying A band, I band, H zone

In this Experimental Design Lab, students independently design and carry out a full anatomical investigation of a pregnant pig uterus. Using the reference dissection video only as a guide—but not as their exact procedure—students develop a testable scientific question, write a hypothesis grounded in structure–function reasoning, and plan a step-by-step method that includes safety procedures, external measurements, internal dissection, fetal identification, data recording, and comparative anatomy

This 7-Station Reproductive System Rotational Lab transforms a traditionally difficult unit into an engaging, hands-on learning experience that builds deep conceptual understanding. Through interactive models, hormone pathway simulations, real-world reproductive health scenarios, and student-led case studies, learners explore every major component of human reproduction with clarity and confidence. Students rotate through seven highly structured mini-labs—each designed to model a key reproductiv

🦴 Bone Remodeling Mini Lab & Simulation Activity Bring the skeletal system to life with this interactive Bone Remodeling Mini Lab where students model how osteoclast and osteoblast activity affects bone strength and density. In this engaging activity, students first explore bone remodeling using a simple hands-on paper plate model to visualize how bone becomes weaker or stronger depending on the balance between bone resorption and bone formation. Students then apply their understanding in a

Turn your anatomy unit into a real-world forensic investigation with this engaging Bone Length Inquiry Lab! In this hands-on activity, students step into the role of forensic anthropologists, using long bone measurements to estimate human height and analyze skeletal proportions. Students collect real body measurements, apply mathematical formulas used in forensic science, and evaluate the accuracy of different bones for predicting height. This lab integrates anatomy, math, and critical think

In this Experimental Design Lab, students design and carry out a complete anatomical investigation of a bull testicle. Using reference dissection videos only as guides—but not as templates—students develop their own scientific question, write a biologically accurate hypothesis, and construct a safe, logical step-by-step procedure. Students plan safety rules, identify materials, diagram where measurements will be taken, and outline how they will collect, record, and communicate data. During the d

Product Summary: Bacteria Growth Lab – Integumentary System ConnectionThis engaging hands-on lab allows students to investigate how bacteria grow on the skin and how the integumentary system protects the body as its first line of defense. Students swab different skin conditions—unwashed, washed with water, sanitized, and a control—and culture bacteria on agar plates to observe differences in microbial growth. What’s Included: Step-by-step lab directions for swabbing, streaking, and incubating ag

Product Summary: Integumentary System Case Study ProjectThis interactive project transforms students into a “medical team” as they diagnose patient cases, research treatment plans, and present their findings. Using realistic case files (e.g., psoriasis, eczema, burns, ringworm, vitiligo, alopecia, melasma), students practice critical thinking, collaboration, and scientific communication while connecting directly to integumentary system functions. What’s Included: Patient Case Files (9 total): Ea

🧬 Immune System Defense Lab Stations Hands-on Learning That Brings the Body’s Defenses to Life!Transform your classroom into a dynamic immune system with this interactive 7-station lab kit that lets students see, touch, and model how the body fights off pathogens. Designed for middle and high school biology students, this lab gives learners a real-world understanding of the body’s three lines of defense — barriers, inflammation, and the immune response — through quick, engaging, and easy-to

Collaborative Critical Thinking for Real-World Science!Bring biology to life with this interactive, project-based immune system lesson that turns complex diseases into hands-on learning experiences. Students work in groups to analyze real-world immune system case studies, create detailed Frayer Model posters, and engage in a gallery walk to deepen understanding through peer discussion and comparison. 💡 Why Teachers Love It Real-world relevance: Students connect immune concepts to authent

Complete Lab Safety Training Project Take the stress out of teaching lab safety with this ready-to-go, fully scaffolded project that transforms your students into safety trainers! Instead of just memorizing rules, students apply their knowledge by designing and presenting their own complete lab safety training module. What’s Included: ✅ Part 1: Written Lab Safety Contract Paper – Students reflect on and formalize their understanding of safety rules in writing. ✅ Part 2: Visual Safety Poste

📄 Product Summary: Experimental Design Midterm – UV Rays & Skin Lab Purpose This lab midterm is designed to assess students’ ability to design and carry out a controlled experiment testing how well different chemical and physical barriers (e.g., sunscreens, fabrics) reduce UV exposure. Students use UV-sensitive beads as a detector to simulate melanin and measure UV radiation effects. Background UV radiation can damage DNA, cause sunburn, premature aging, and skin cancer. Physical barrier