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Blast a car out of a cannon, and challenge yourself to hit a target! Learn about projectile motion by firing various objects. Set parameters such as angle, initial speed, and mass. Explore vector representations, and add air resistance to investigate the factors that influence drag.
Explore the interactive simulation of projectile motion, learning about kinematics and air resistance factors.
Projectile Motion - PhET Interactive Simulations
Learners can modify the launch speed, the launch angle, and the launch height and observe the effect of these changes upon a variety of projectile parameters such as the trajectory, the range, and maximum height, and the time of flight.
Solution: This is a projectile motion problem, a type of motion in which, without air resis-tance, we have ax = 0 and ay = −g. The kinematic equations for projectile are: x = (v0 cos α) t. z. v0x. = − gt2 + (v0 sin α) t + y0. zv0y. vx = v0 cos α. zv0x. vy = v0 sin α −gt. zv0y. 0)then the hitting position has coordinate (x, y = −500 m). Use t.
In this simulation you will learn about projectile motion by blasting objects out of a cannon. You can choose between objects such as a tank shell, a golf ball or even a Buick. Experiment with changing the angle, initial speed, and mass, and adding in air resistance.
10 kwi 2024 · Calculate the trajectory of a projectile. Projectile motion is the motion of an object thrown or projected into the air, subject only to acceleration as a result of gravity. The applications of projectile motion in physics and engineering are numerous.
