DETERMINING SPRING CONSTANT FROM PROJECTILE FLIGHT The ball you will fire has a mass of 10.1 g. The spring in the projec
Posted: Sat Jul 02, 2022 7:02 pm
DETERMINING SPRING CONSTANT FROM PROJECTILE FLIGHT
The ball you will fire has a mass of 10.1 g.
The spring in the projectile launcher has been compressed by 39.0 mm.
The gravitational acceleration of the planet is 9.60 m/s/s.
The ball falls a vertical distance of 804.0 mm as it goes from the launcher to the ground.
Lands at 285 cm to the ground
Use the acceleration due to gravity to find the time of flight.
Based on where the ball lands, determine the launch speed of the ball.
Determine the KE of the ball at the moment of launch. (J)
Determine the spring constant of the spring. (N/m)
The ball you will fire has a mass of 10.1 g.
The spring in the projectile launcher has been compressed by 39.0 mm.
The gravitational acceleration of the planet is 9.60 m/s/s.
The ball falls a vertical distance of 804.0 mm as it goes from the launcher to the ground.
Lands at 285 cm to the ground
Use the acceleration due to gravity to find the time of flight.
Based on where the ball lands, determine the launch speed of the ball.
Determine the KE of the ball at the moment of launch. (J)
Determine the spring constant of the spring. (N/m)