NTNUJAVA Virtual Physics Laboratory
Enjoy the fun of physics with simulations!
Backup site http://enjoy.phy.ntnu.edu.tw/ntnujava/
October 22, 2019, 10:55:25 am *
Welcome, Guest. Please login or register.
Did you miss your activation email?

Login with username, password and session length
 
   Home   Help Search Login Register  
"The mind is its own place, and in itself, can make heaven of Hell, and a hell of Heaven." ..."John Milton(1608-1674, English Poet)"
Google Bookmarks Yahoo My Web MSN Live Netscape Del.icio.us FURL Stumble Upon Delirious Ask FaceBook

Pages: [1]   Go Down
  Print  
Author Topic: Trajectory of projectile motion  (Read 8916 times)
0 Members and 1 Guest are viewing this topic. Click to toggle author information(expand message area).
ahmedelshfie
Moderator
Hero Member
*****
Offline Offline

Posts: 954



«
Embed this message
on: June 09, 2010, 01:05:27 am » posted from:SAO PAULO,SAO PAULO,BRAZIL

This following applet is Trajectory of projectile motion
Created by prof Hwang Modified by Ahmed
Original project Trajectory of projectile motion

The initial speed of the projectile and the gravity can be changed with sliders.
You can drag the far end of the bar to change the angle (it can be changed with the slider,too).
You can find out at what angle the projectle will reach maximum horizontal distance when falls back to the same height.

You can make your own demonstration:
1. Replace the blue line with a stick.
2. Prepare many strings with appropriate length (check out step 4),
3. Loosely tie those strings at equal distance to the stick. (it will be better if you make a circle at one end of the string and put those strings at equal distance)
4. Cut the strings so that the length L(i)=L*i*i;

The distance between string represents initial speed of the projectile (distance travel at unit time).
 

Embed a running copy of this simulation

Embed a running copy link(show simulation in a popuped window)
Full screen applet or Problem viewing java?Add http://www.phy.ntnu.edu.tw/ to exception site list
Press the Alt key and the left mouse button to drag the applet off the browser and onto the desktop. This work is licensed under a Creative Commons Attribution 2.5 Taiwan License
  • Please feel free to post your ideas about how to use the simulation for better teaching and learning.
  • Post questions to be asked to help students to think, to explore.
  • Upload worksheets as attached files to share with more users.
Let's work together. We can help more users understand physics conceptually and enjoy the fun of learning physics!


* Trajectory of projectile motion.jpg (38.69 KB, 593x586 - viewed 495 times.)
Logged
ahmedelshfie
Moderator
Hero Member
*****
Offline Offline

Posts: 954



«
Embed this message
Reply #1 on: June 26, 2010, 12:11:07 am » posted from:SAO PAULO,SAO PAULO,BRAZIL

A trajectory is the path a moving object follows through space as a function of time.
The object might be a projectile or a satellite, for example. It thus includes the meaning of orbit—the path of a planet, an asteroid or a comet as it travels around a central mass.
A trajectory can be described mathematically either by the geometry of the path, or as the position of the object over time.


* 350px-RiflemansRule.svg.png (14.93 KB, 350x193 - viewed 478 times.)

* Inclinedthrow.gif (453.11 KB, 400x288 - viewed 439 times.)
Logged
ahmedelshfie
Moderator
Hero Member
*****
Offline Offline

Posts: 954



«
Embed this message
Reply #2 on: June 26, 2010, 12:12:09 am » posted from:SAO PAULO,SAO PAULO,BRAZIL

A familiar example of a trajectory is the path of a projectile such as a thrown ball or rock. In a greatly simplified model the object moves only under the influence of a uniform homogenous gravitational force field. This can be a good approximation for a rock that is thrown for short distances for example, at the surface of the moon. In this simple approximation the trajectory takes the shape of a parabola. Generally, when determining trajectories it may be necessary to account for nonuniform gravitational forces, air resistance (drag and aerodynamics). This is the focus of the discipline of ballistics.
One of the remarkable achievements of Newtonian mechanics was the derivation of the laws of Kepler, in the case of the gravitational field of a single point mass (representing the Sun). The trajectory is a conic section, like an ellipse or a parabola. This agrees with the observed orbits of planets and comets, to a reasonably good approximation. Although if a comet passes close to the Sun, then it is also influenced by other forces, such as the solar wind and radiation pressure, which modify the orbit, and cause the comet to eject material into space.
Newton's theory later developed into the branch of theoretical physics known as classical mechanics. It employs the mathematics of differential calculus (which was, in fact, also initiated by Newton, in his youth). Over the centuries, countless scientists contributed to the development of these two disciplines. Classical mechanics became a most prominent demonstration of the power of rational thought, i.e. reason, in science as well as technology. It helps to understand and predict an enormous range of phenomena.
Logged
Pages: [1]   Go Up
  Print  
"The mind is its own place, and in itself, can make heaven of Hell, and a hell of Heaven." ..."John Milton(1608-1674, English Poet)"
 
Jump to:  


Related Topics
Subject Started by Replies Views Last post
projectile motion
Examples for beginner who want to learn EJS
Fu-Kwun Hwang 0 16840 Last post August 18, 2006, 02:22:47 pm
by Fu-Kwun Hwang
Projectile Motion
Dynamics
lookang 3 11280 Last post May 17, 2019, 03:09:45 pm
by angelinajolie
How to determined the trajectory of a planetary motion?
Dynamics
Fu-Kwun Hwang 0 10994 Last post February 14, 2008, 04:19:58 pm
by Fu-Kwun Hwang
Trajectory of projectile motion
Kinematics
Fu-Kwun Hwang 0 7649 Last post September 04, 2009, 10:10:39 pm
by Fu-Kwun Hwang
How to determined the trajectory of a planetary motion?
dynamics
ahmedelshfie 1 3531 Last post November 28, 2018, 03:25:39 pm
by Auolor
Powered by MySQL Powered by PHP Powered by SMF 1.1.13 | SMF © 2006-2011, Simple Machines LLC Valid XHTML 1.0! Valid CSS!
Page created in 0.067 seconds with 25 queries.since 2011/06/15