Science or Not Lab: Experimental Design

Why are larger individuals of a particular species eaten more frequently than smaller ones?

Overview

The primary purpose of this investigation is to introduce students to 1) the collaborative process and guided inquiry format that will be used in each investigation, 2) the lab preparation and reporting assignments, and 3) resources available for help (lab manual and faculty instructor/peer mentors). As an introduction to the lab, this investigation thus differs from the others in that the hypothesis to be tested is provided to students: “Larger Catocala moths are eaten more often than smaller ones because the larger ones are easier to see.” As in each investigation, background information is presented to help frame the direction of inquiry. Foraging theory and prey crypsis are used to motivate the provided hypothesis.

Outcomes: Inquiry 5, Inquiry 6, Inquiry 7, Inquiry 8

Materials

Lab-Aids Natural Selection Experiment (Kit #91). Provide one per group of students.

Shaw, T.J. & French, D.P. (2018). Authentic Research in Introductory Biology, 2018 ed. Fountainhead, Fort Worth.

Timeline

We suggest two weeks for this investigation if it’s the first lab investigation of the term.

Week 1:  Begin planning form

  1. May submit by end of lab period, or in LRC
  2. Will complete as a group, not individually (all other planning forms are individually completed)

Week 2:  Conduct experiment and compose lab report

Assessments

Quiz

Keys and additional instructor-only notes (you will be asked to sign into a Google account and request access to view instructor materials)

Lab report rubric

Sea to Shore Lab: Thermoregulation

Why are animals shaped differently in cooler climates than in warmer ones?

Overview

The purpose of this lab is to get students relating surface area/volume ratio to the way in which an animal thermoregulates (by using modeling clay).  At the conclusion of this investigation, students should also be writing a better lab report, able to produce a XY scatter plot with a trendline, and perform a simple statistical test. They will be using modeling clay to simulate body shapes, and temp probes to monitor any changes.  They may craft any shape they like, provided that 1. They can calculate the SA/V ratio of the shape, and 2. They can accurately record its temp with the probe (shapes like a long cylinder or flattened box do not work well as there is little clay surrounding the temp probe).

Outcomes:  Inquiry 4, Inquiry 5, Inquiry 6, Inquiry 7, Inquiry 8; SA/V 1; Gradients 1, Gradients 2, Gradients 3, Gradients 4; Thermoregulation 1, Thermoregulation 6

Materials (Per lab group)

Shaw, T.J. & French, D.P. (2018). Authentic Research in Introductory Biology, 2018 ed. Fountainhead, Fort Worth.

Assessments

PreLab

Quiz

Keys and additional instructor-only notes (you will be asked to sign into a Google account and request access to view instructor materials)

Lab report rubric

Sea to Shore Lab: Diffusion

Why is diffusion through a membrane sometimes faster?

Overview

This lab should help students understand the extremely important role of gradients. Focus on the idea that gradients occur whenever there is a concentration difference from high to low. Gradients do not just occur in liquids there can be gradients in temperature, Na and K ions, smoke, perfume, people, etc.

Students should be familiar with the terms solute, solvent, hyper-and hypotonic. Osmosis refers to the movement of water and dialysis typically to the movement of solute. Students may or may not comprehend the concept of ion, but you can simply leave it as a charged atom or particle or molecule. Unfortunately, if they don’t have some clue about ions or at least that NaCl becomes Na+ and Cl- when dissolved, the understanding what conductivity tells them is difficult. The pre-lab explains it, but be prepared.

Outcomes:  Inquiry 4, Inquiry 5, Inquiry 6, Inquiry 7, Inquiry 8; SA/V 1, SA/V 2; Gradients 1, Gradients 2, Gradients 3, Gradients 4; Membrane Transport 2, Membrane Transport 3, Membrane Transport 5

Materials

Per lab group

Shaw, T.J. & French, D.P. (2018). Authentic Research in Introductory Biology, 2018 ed. Fountainhead, Fort Worth.

Assessments

PreLab Activity

Quiz

Keys and additional instructor-only notes (you will be asked to sign into a Google account and request access to view instructor materials)

Lab report rubric