The discussion revolves around a physics problem involving projectile motion, specifically the maximum height achieved by a soccer ball kicked at a 45° angle. The original poster presents a scenario where the ball is in the air for 3 seconds and attempts to calculate the maximum height using kinematic equations.
The conversation is ongoing, with participants questioning the validity of the original poster's approach and equations. Some suggest modifications to the equations to incorporate the unknown initial velocity, while others emphasize the importance of correctly defining variables and understanding the relationship between vertical displacement and time.
There is a lack of clarity regarding the initial velocity of the soccer ball, which is crucial for solving the problem. Participants are exploring the implications of setting initial velocity to zero and the resulting impact on calculations.
You got 2.2 what? You don't know the velocity, so how can you get the velocity components?pennywise1234 said:i got 2.2 for each side
Setting it zero will get you nowhere. Create an unknown for it, v.pennywise1234 said:y=o represents initial velocity. but it is not known like you said, so that is how i was able to get 11.05 but setting initial to 0
You are asked to find, eventually, the vertical displacement from launch to the highest point. I asked you what the vertical displacement is from launch to where it lands.pennywise1234 said:I am trying to find displacement though