Cidepe

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Movement in two dimensions. Kinematics Horizontal launch, range, uncertainty and impact speed. Measuring the launch height and range. The uncertainty of the range measurement. Decomposing the parabolic movement into two rectilinear movements. Calculating the final resulting speed, impact speed. The range in an oblique launch. Measuring the initial speed in a 45 degree launch. Decomposing the parabolic movement of the projectile into two rectilinear movements. Determining the range with the measured values of the launch speed, inclination and flight time. Determining the range independent of the flight time. Oblique launches with different flight times and initial speeds, keeping the angle constant. Table and graph. The relationship of the range with the initial speed and flight time, keeping the launch angle constant. The maximum height in an oblique projectile launch, sensors. Maximum height from measured values of flight time and launch speed at a 45 degree angle. Horizontal and vertical components of the launch speed. How to determine the final resultant speed, impact speed, from their horizontal and vertical components. Range as a function of the launch angle. The relationship between range and launch angle. Conservation of mechanical energy. Maximum height by conservation of mechanical energy, oblique launch, sensors. Sphere diameter. Measuring the initial velocity of a 45 degree launch. Determining the maximum height of a sphere (projectile) using conservation of mechanical energy. Determining the maximum height in a vertical launch from conservation of mechanical energy. Comparing the speed obtained by the ballistic pendulum with that measured by the sensor, rapid method. Ballistic pendulum. Determining the speed of the projectile using a sensor. Conservation of mechanical energy. Conservation of linear momentum. The speed of the projectile before collision. Comparing the speed of the projectile obtained with the ballistic pendulum with the speed measured with a sensor. Determining the speed of a projectile using the ballistic pendulum. Conservation of angular momentum. Calculation of the moment of inertia of the pendulum and sphere assembly. The speed of the projectile before the collision. Determining the moment of inertia of the pendulum and projectile assembly, from the oscillation period, etc. Note: Does not include a pen drive.

Cidepe - Industrial Center for Teaching and Research Equipment - is a company of reference in educational instruments in educational institutions in Brazil and abroad. With an experienced team of engineers, professors, researchers, consultants and other collaborators, Cidepe develops products with technology and human talent to improve the teaching dynamics.
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Details

Details with the main experiments