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In this chapter our main focus will be on Ampere’s law, a general theorem that allows us to calculate the magnetic fields of simple current distributions in much the same way that Gauss’ law allowed us to calculate the electric field of simple charge distributions. As we use them, Gauss’ and Ampere’s laws are integral theorems. With Gauss’ law.
The purpose of this experiment is to verify Ampere’s law. You will measure the magnetic field due to a current-carrying coil of wire on a path enclosing a portion of the coil.
Exploring the Scientific Method The scientific method is a process that scientists use to better understand the world around them. It includes making observations and asking a question, forming a hypothesis, designing an experiment, collecting and analyzing data, and drawing a conclusion. This is sometimes also referred to as scientific inquiry.
Students can verify Ampere’s Law experimentally by graphing the magnetic field strength that is tangent to the path taken along a closed path that encloses a current source. Many lab activities can be conducted with our Wireless, PASPORT, or even ScienceWorkshop sensors and equipment.
The Ampere's Law calculators are particularly useful for ensuring your step-by-step calculations are correct as well as ensuring your final result is accurate. Not sure on some or part of the Ampere's Law questions? Review the tutorials and learning material for Ampere's Law
Fourteen Excel workbooks can be downloaded for free which contain worksheets that implement the various tests and analyses described in the rest of this website. In parentheses is a list of the Real Statistics website main menu topics covered in each examples workbook.
Common experimental design tools and techniques that students can use include random assignment, control groups, blinding, replication, and statistical analysis. Students can also use observational studies, surveys, and experiments with natural or quasi-experimental designs.
