College physics experiments

College Science Fair Projects

The webpage provides a description of the experiment with correlations to state and national science standards. After you submit a SIM request to borrow equipment or obtain the services of the Mobile Educator, then you will be emailed both the student and teacher versions of the experiment in Word format. You may edit the lab to meet your specific needs and make copies for use with your classes. Staff are working remotely and can assist with services and support. Physics Lab Experiments. Graph Matching. Back and Forth Motion. Cart on a Ramp. Determining g on an Incline. Picket Fence Free Fall. Ball Toss. Bungee Jump Accelerations. Projectile Motion Photogates. Projectile Motion Projectile Launcher. Newton's Second Law. Atwood's Machine. Newton's Third Law. Static and Kinetic Friction. Air Resistance. Pendulum Periods. Simple Harmonic Motion. Energy of a Tossed Ball. Energy in Simple Harmonic Motion. Momentum, Energy and Collisions. Impulse and Momentum. Centripetal Accelerations on a Turntable. Accelerations in the Real World. Ohm's Law. Series and Parallel Circuits. The Magnetic Field in a Coil. The Magnetic Field in a Slinky. Electrical Energy. Polarization of Light. Polarization of Light Rotary Motion Sensor. Light, Brightness and Distance. Newton's Law of Cooling. The Magnetic Field of a Permanent Magnet.

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Inquiry-based laboratory investigations are integral to the AP Physics 1 and 2 courses because they provide opportunities for students to apply the seven science practices defined in the curriculum frameworks as they identify questions, design experiments, conduct investigations, collect and analyze data, and communicate their results. The AP Physics labs provided by the College Board do not represent required activities; in fact, teachers are encouraged to develop their own inquiry-based labs that address the learning objectives in the curriculum framework. The College Board has also developed two guides, one for students and one for teachers, in support of skills needed for inquiry-based lab investigations. Provides AP Physics students with important information on accuracy, precision, experimental error, and graphs. Provides AP Physics teachers with background information covering experimental error and estimation of uncertainties, error analysis, and the creation and analysis of graphic representations of data. This information is necessary to support students in the development and successful application of the quantitative skills needed in the AP Physics laboratory. Download All 6. A print edition of the teacher's lab manual is available for purchase at the College Board Store. AP Central. AP Physics 1 and 2 Lab Manual. Ancillary Guides for the AP Physics Laboratory The College Board has also developed two guides, one for students and one for teachers, in support of skills needed for inquiry-based lab investigations. Quantitative Skills and Analysis in AP Physics 1 and 2 Investigations: A Guide for Teachers Provides AP Physics teachers with background information covering experimental error and estimation of uncertainties, error analysis, and the creation and analysis of graphic representations of data. Chapters 1 through 8 of the teacher's manual. Nine example AP Physics 1 lab investigations. Seven example AP Physics 2 lab investigations.

Top 10 Science Experiments to Try at Home


Published on Mar 28, Wireless Energy: The Future of Electricity. Use of Magnetic Levitation for an Elevator. Nanotechnology: The Smaller The Stronger. Comparison of the Adhesion of Liquids on Regular Shapes. Creating Electric Current with a Magnet. Quantifying the Effect of Skyglow on the Visibility of Stars. Quantifying the Effect of Tungsten Illumination. Radioactive Attenuation and the Inverse Square Law. Safely Thawing Meat Used while Backpacking. Solar Tubes vs. Conventional Fluorescent. Study of the Wavelike Properties of Light. Testing Sound Decay in Different Gasses. The Study of Alternating Magnetic Fields. Wavelength Controlled Holographic Polarization. An Analysis of Black Hole Thermodynamics. Effectiveness of Recycled Materials as Thermal Insulation. Effect of Electric Fields on the Heat of Vaporization. Effect of Titanium Dioxide on Photovoltaic Cells. Effects of Gases on Solar Water Heaters. Experimental Investigation of High Frequency Plasma. Frequency Relationship of Notes in Musical Harmony. How Temperature Affects a Magnet's Strength. Light Reflection and Refraction off Liquids. Nonlinear Oscillations in Mechanical Systems. Observations of Gas in the Infrared Spectrum.

PHYSICS EXPERIMENTS


Color vs. Comparison of the Adhesion of Liquids on Regular Shapes. Creating Electric Current with a Magnet. Quantifying the Effect of Skyglow on the Visibility of Stars. Quantifying the Effect of Tungsten Illumination. Radioactive Attenuation and the Inverse Square Law. Safely Thawing Meat Used while Backpacking. Solar Tubes vs. Conventional Fluorescent. Study of the Wavelike Properties of Light. Testing Sound Decay in Different Gasses. The Study of Alternating Magnetic Fields. Wavelength Controlled Holographic Polarization. An Analysis of Black Hole Thermodynamics. Effectiveness of Recycled Materials as Thermal Insulation. Effect of Electric Fields on the Heat of Vaporization. Effect of Titanium Dioxide on Photovoltaic Cells. Effects of Gases on Solar Water Heaters. Experimental Investigation of High Frequency Plasma. Frequency Relationship of Notes in Musical Harmony. How Temperature Affects a Magnet's Strength. Light Reflection and Refraction off Liquids. Nonlinear Oscillations in Mechanical Systems. Observations of Gas in the Infrared Spectrum.

COLLEGE PHYSICS LAB

It can be a challenge to come up with a science fair project idea. There is fierce competition to come up with the coolest idea, plus you need a topic that is considered appropriate for your educational level. A well-designed project at the college level can open the door to future educational and career opportunities, so it pays to put some thought and effort into your topic. A good project will answer a question and test a hypothesis. College students usually have a semester to complete their project, so they have some time to plan and conduct research. The goal at this level is to find an original topic. It doesn't have to be something complicated or time-consuming. Also, appearances count. Aim for professional-quality images and presentation. Handwritten work and drawings won't work as well as a printed report or poster with photographs. Possible ideas, divided by topic, include:. Share Flipboard Email. Anne Marie Helmenstine, Ph. Chemistry Expert. Helmenstine holds a Ph. She has taught science courses at the high school, college, and graduate levels. Facebook Facebook Twitter Twitter. Does the presence of detergent in water affect plant growth? In what ways? What is the implication regarding water pollution? Does magnetism affect the growth of plants? In what way? Is a seed affected by its size? Do different size seeds have different germination rates? Does seed size affect the growth rate or final size of a plant? How close does a plant have to be to a pesticide for the pesticide to work? What factors influence the effectiveness of a pesticide, such as rain, light or wind? How much can you dilute a pesticide while retaining its effectiveness? How effective are natural pest deterrents? What is the effect of a chemical on a plant? You can look at natural pollutants—such as motor oil or runoff from a busy street—or unusual substances, for example, orange juice or baking soda. How does cold storage affect the germination of seeds? Factors you can control include the type of seeds, length of storage and the temperature of storage, light, and humidity.

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