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          AP* PHYSICS 2, continued
Modern Topics—
Advanced Inquiry Laboratory Kit AP* Physics 2, Big Idea 6, Investigation 14 In this advanced-inquiry investigation, students devise a method for measuring
the width of very thin materials by taking advantage of the principles of diffraction. The introductory activity provides instructions for setting up an apparatus to create diffraction patterns by shining a monochromatic red laser light at the edges of various materials. The guided-inquiry activity challenges students
to devise a means for calculating the widths of the various materials and assessing experi- mental error.
AP8009 | $147.35
Electromagnetic Induction— Advanced Inquiry Laboratory Kit AP* Physics 2, Big Idea 4, Investigation 10 This advanced-inquiry lab begins with an
introductory activity in which students use
a galvanometer, coils of wire and a magnet
to investigate the effect of magnetic flux on
a coil of wire through a structured-inquiry approach. This procedure provides a model for a guided-inquiry activity in which students are challenged to design a procedure and use avail- able materials to build an AC generator
that lights an LED.
AP8005 | $122.35
Flinn Advanced Inquiry Labs for AP* Physics 2 Lab Manual
All 15 Flinn advanced-inquiry laboratory experiments for AP* Physics 2 in one amazing book! Flinn lab manual includes thoroughly tested experiments for each of the new inquiry investigations in the AP Physics 2 curriculum framework, review questions and comprehensive teacher notes, including materials list and solution preparation, frame- work correlation guide, real sample data and answers to all questions. Each experiment begins with an Introductory Activity to prepare students for the Guided-Inquiry Design and Procedure portion of the lab.
AP8072 | $133.20
FLINN SCIENTIFIC I AP* PHYSICS 2 25
     Refraction and Lenses—
Advanced Inquiry Laboratory Kit
AP* Physics 2, Big Idea 6, Investigation 12
The lab begins with introductory activity to
investigate Snell’s law using a gelatin-filled dish and laser pointer. Students draw the rays of incidence and refraction and compare the angles. A series of guided-inquiry questions lead students to predict focal lengths of concave and convex lenses and the location and type of images formed. Students then perform experiments to confirm their predic- tions. Enough materials are provided for six student groups to perform the introductory activity and for a single demonstration setup of the guided-inquiry equipment. Additional lenses, meter stick optics equipment and lasers are available separately.
AP8007 | $65.95
      Advanced Inquiry Labs for
AP* Physics 2, 15-Kit Bundle!
Cost-saving, comprehensive bundle includes all 15 Flinn Advanced Inquiry Labs for AP* Physics 2—enough to fulfill the requirements for the entire AP Physics 2 curriculum. Save money by purchasing the kits as a bundle rather than individually—and save time with Flinn Advanced Inquiry Lab Kits! Each lab is correlated to the Big Ideas and Enduring Understandings in the AP Physics 2 curriculum framework that students are required to learn. Completely aligned with new AP Physics 2 curriculum! Real sample data provided in teacher notes. Adaptable for use with or without technology.
Includes the following Flinn Kits:
• AP7995 Archimedes’ Principle and Buoyancy • AP7996 Fluid Dynamics
• AP7997 Boyle’s Law
• AP7999 Thermal Conductivity
• AP8000 Investigating Electric Charge • AP8001 Electric Field Mapping
• AP8002 Capacitance and RC Circuits • AP8003 Kirchoff’s Rules
AP8012 | $1,245.00
• AP8004 A Magnetism Investigation • AP8005 Electromagnetic Induction • AP8006 Reflection and Mirrors
• AP8007 Refraction and Lenses
• AP8008 Diffraction
• AP8009 Modern Topics
• AP8010 The Photoelectric Effect