Vernier is changing the way educators teach science. Subject areas include: Biology, Chemistry, Physics and Engineering. The award winning interfaces, software, sensors and curriculum help students collect, analyze and develop an understanding of the data and subject manner.
The Goniometer can be used to measure the dynamic motion of a limb during different types of physical activity.
The Low-g Accelerometer is the best choice for most acceleration experiments, including Newton’s second law, simple harmonic motion, and the relationship between acceleration and force. It can also be used to study one-dimensional motion of a car (real and toy), an elevator, a pendulum bob, or an amusement park ride.
The adapter includes two connectors for Vernier analog sensors and one connector for Vernier digital sensors. A screw terminal and header pins provide access to myDAQ lines not used by the connectors. This includes the two analog output lines, three digital lines (including the digital lines with the frequency and pulse width modulation outputs), and a +5 volt power terminal.
The Vernier Resistor Board has seven 1 W 5% resistors mounted on a circuit board. Test clip holes on either side of the resistors allow for easy connections to clips on wire leads. The Vernier Resistor Board provides an ideal set of load resistors for KidWind wind turbines and solar panels.
The adapter fits into a standard prototyping board or National Instruments’ ELVIS prototyping board, providing easy access to the sensor lines.
Use the Dual-Range Force Sensor in a wide variety of experiments, including the study of friction, simple harmonic motion, impact in collisions, or centripetal force.
This balsa wood is pre-shaped in an airfoil shape.
Replacement power supply for the LabQuest 3. Can also be used with LabQuest 2, LabQuest, LabQuest Stream, and Go Direct SpectroVis Plus.
The Light Sensor approximates the human eye in spectral response. Use it for inverse square law experiments or for studying polarizers, reflectivity, or solar energy.