The motion of an object accelerated by a constant force on a horizontal frictionless surface
Demonstrating the action-reaction law with two connected cars
The acceleration of the truck depends on the coefficient of friction of its wheels
The simulation consists of a bigger that can move easily on the ground and a smaller car on top of it
Proving that the rod undergoes horizontal simple harmonic oscillation using Newton’s 2nd law.
Determining the coefficient of friction in case of a disk sliding on a table.
One typical parameter of a motor is the maximum torque it can exert. The effect of this maximum torque can be investigated using FIZIKA simulation program.
Determining the velocity and acceleration of a body sliding down a frictionless slope
Comparing the velocities of the two motions and investigating it with the concept of the conservation of energy
Times taken by objects slide down on frictionless slopes of the same height
Applying the basic knowledge anbout kinematics
Uniting uniform motion along a straight line and cilrular motion.
Two cars (their distance is 2 m) with different velocities start to move together in the same direction. When and where do they meet?
Two cars with different velocities start to move toward each other. Where do they meet?
A car moves with two different speed on the distance. Determine its average speed
Does the car going in a dip or on a bump win the race?
Determining the effective spring constant of a system consisting of two identical springs in series.
Determining the effective spring constant of a system consisting of two identical springs in parallel
