Cidepe

Function

Intended for experimental study, physics laboratory work, and conducting physics experiments on: Physics. Kinematics. Horizontal launch, range, uncertainty, and impact velocity. Measuring launch height and range. The uncertainty of range measurement. Decomposing parabolic motion into two rectilinear motions. Calculating the final resultant velocity, impact velocity. The range in an oblique launch. Decomposing the parabolic motion of the projectile into two rectilinear motions. Determining the range with measured values of launch velocity, inclination, and flight time. Determining the range, independent of flight time. Oblique launches with different flight times and initial velocities, keeping the angle constant. The relationship between range, initial velocity, and flight time, keeping the launch angle constant. The maximum height in an oblique projectile launch, sensors. The maximum height from measured values of flight time and launch velocity in a 45-degree launch. The horizontal and vertical components of the launch velocity. How to determine the final resultant velocity, impact velocity, from its horizontal and vertical components. Oblique launch, range as a function of launch angle, sensors. The parabolic motion of the projectile in an oblique launch. Expression for calculating the range as a function of launch velocity, inclination, and flight time. Conservation of mechanical energy. Determining the maximum height in a vertical launch from the conservation of mechanical energy. The values of initial potential and kinetic energy. The values of final potential and kinetic energy. Using the principle of conservation of mechanical energy to calculate the maximum height and compare it with the measured value. The relative percentage error. Vertical launch, maximum height and conservation of mechanical energy, sensor. Measuring the initial velocity of the sphere in a vertical launch. Conservation of mechanical energy. Determining the maximum height of the sphere (projectile) from the conservation of mechanical energy. Measuring the initial velocity in an oblique launch and determining the maximum height by conservation of mechanical energy. The diameter of the sphere. Measuring the initial launch velocity at 45 degrees. Determining the maximum height of the sphere using conservation of mechanical energy. Conservation of momentum, kinetic energy, and coefficient of restitution in an elastic collision. The masses of the spheres. Measuring the velocity of sphere 1 before the collision. Measuring the angle between the positions of sphere 1 and sphere 2 at the points of impact with the ground. Determining the fall time of the spheres. Determining the horizontal components of the spheres' velocities after the collision. Partial and total momenta before the collision. Partial and total momenta after the collision. Partial and total kinetic energies before the elastic collision. Partial and total kinetic energies after the elastic collision. Determining the coefficient of restitution and classifying the type of collision, etc.