Projectile Motion analytical solutions

In summary, the conversation discusses finding analytical solutions for projectile motion and the difference between approximations and exact equations. The speaker mentions the Euler approximation for velocity and the need to consider the environment and solve a differential equation for a more accurate analytical solution. It is noted that this may not always be possible and numerical methods may need to be used.
  • #1
Sir_Matt
2
0
Hi, I'm trying to find the analytical solutions to projectile motion, and not just the approximations.I know the Euler approximation for velocity is the inital velocity - acceleration*time, but what is the more accurate analytical solution for velocity.Thank you.
 
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  • #2
That depends on the environment the projectile travels through. The equation you have is perfectly analytical and exact for a projectile that travels only in a constant gravitational field (within the regime of classical mechanics).

To find a solution for a certain environment you will need to start with [itex]F= dp/dt[/itex]. On the left side you have the vector sum of all forces acting upon the projectile. Then all you have to do is solve the differential equation. Unfortunately that is not always possible analytically at which point we'll have to do it numerically.
 
Last edited:
  • #3
Yes no drag, changing air densities or anything.
Ok so this is the most accurate equation. I will use it then.
Thanks.
 

Related to Projectile Motion analytical solutions

1. What is projectile motion?

Projectile motion is a type of motion in which an object is thrown or launched into the air, and then moves along a curved path under the influence of gravity.

2. What are the main components of projectile motion?

The main components of projectile motion are the initial velocity of the object, the angle at which it is launched, and the force of gravity.

3. What are the equations used to calculate projectile motion?

The equations used to calculate projectile motion are the equations of motion, which include the equations for displacement, velocity, and acceleration.

4. How can air resistance affect projectile motion?

Air resistance can affect projectile motion by slowing down the object's horizontal velocity and altering its trajectory.

5. What are some real-life examples of projectile motion?

Some real-life examples of projectile motion include throwing a ball, shooting a basketball, and launching a rocket into space.

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