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7.23: PhET- Projectile Motion
https://phys.libretexts.org/Courses/Joliet_Junior_College/JJC_-_PHYS_110/07%3A_PhET_Simulations/7.23%3A_PhET-_Projectile_Motion
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 repr...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.
4.4: Projectile Motion
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/04%3A_Two-Dimensional_Kinematics/4.04%3A_Projectile_Motion
Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we anal...Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we analyze the motion of the projectile in the horizontal and vertical directions using the one-dimensional kinematic equations for x and y.
12: Projectile Motion
https://phys.libretexts.org/Courses/Prince_Georges_Community_College/General_Physics_I%3A_Classical_Mechanics/12%3A_Projectile_Motion
An important example of two-dimensional motion under constant acceleration is the motion of a projectile (e.g. a cannonball fired from a cannon) at the surface of the Earth (Fig. $\PageIndex{1}$ ). F...An important example of two-dimensional motion under constant acceleration is the motion of a projectile (e.g. a cannonball fired from a cannon) at the surface of the Earth (Fig. $\PageIndex{1}$ ). Figure $\PageIndex{1}$ : Parabolic path of a projectile launched with muzzle velocity $v_{0}$ at angle $\theta$ . Here the $x$ axis is along the ground, $R$ is the range, and $h$ is the maximum altitude.
13A: Freefall, a.k.a. Projectile Motion
https://phys.libretexts.org/Bookshelves/University_Physics/Calculus-Based_Physics_(Schnick)/Volume_A%3A_Kinetics_Statics_and_Thermodynamics/13A%3A_Freefall_a.k.a._Projectile_Motion
The constant acceleration equations apply from the first instant in time after the projectile leaves the launcher to the last instant in time before the projectile hits something, such as the ground. ...The constant acceleration equations apply from the first instant in time after the projectile leaves the launcher to the last instant in time before the projectile hits something, such as the ground. Once the projectile makes contact with the ground, the ground exerts a huge force on the projectile causing a drastic change in the acceleration of the projectile over a very short period of time until, in the case of a projectile that doesn’t bounce, both the acceleration and the velocity become ze
5.4: Projectile Motion
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019v2/Book%3A_Custom_Physics_textbook_for_JJC/05%3A_Two-Dimensional_Kinematics/5.04%3A_Projectile_Motion
Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we anal...Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we analyze the motion of the projectile in the horizontal and vertical directions using the one-dimensional kinematic equations for x and y.
12.1: Introduction to Projectile Motion
https://phys.libretexts.org/Courses/Prince_Georges_Community_College/General_Physics_I%3A_Classical_Mechanics/12%3A_Projectile_Motion/12.01%3A_Introduction_to_Projectile_Motion
Here the $x$ axis is along the ground, $R$ is the range, and $h$ is the maximum altitude. where $\mathbf{v}_{0}$ is the initial velocity of the cannonball, called the muzzle velocity. Typicall...Here the $x$ axis is along the ground, $R$ is the range, and $h$ is the maximum altitude. where $\mathbf{v}_{0}$ is the initial velocity of the cannonball, called the muzzle velocity. Typically in real life you will not know the cartesian components of the velocity vector ( $v_{x 0}$ and $v_{y 0}$ ); instead you are more likely to know the magnitude of the muzzle velocity $v_{0}$ and the launch angle $\theta$ .
3.4: Projectile Motion
https://phys.libretexts.org/Bookshelves/College_Physics/College_Physics_1e_(OpenStax)/03%3A_Two-Dimensional_Kinematics/3.04%3A_Projectile_Motion
Projectile motion is the motion of an object thrown or projected into the air, subject to only the acceleration of gravity. The object is called a projectile, and its path is called its trajectory. Th...Projectile motion is the motion of an object thrown or projected into the air, subject to only the acceleration of gravity. The object is called a projectile, and its path is called its trajectory. The motion of falling objects is a simple one-dimensional type of projectile motion in which there is no horizontal movement. In this section, we consider two-dimensional projectile motion, such as that of a football or other object for which air resistance is negligible.
4.4: Projectile Motion
https://phys.libretexts.org/Workbench/PH_245_Textbook_V2/04%3A_Motion_in_Two_and_Three_Dimensions/4.04%3A_Projectile_Motion
Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we anal...Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we analyze the motion of the projectile in the horizontal and vertical directions using the one-dimensional kinematic equations for x and y.
16.4: Examples
https://phys.libretexts.org/Courses/Merrimack_College/Conservation_Laws_Newton's_Laws_and_Kinematics_version_2.0/16%3A_N3)_2_Dimensional_Kinematics_and_Projectile_Motion/16.04%3A_Examples
Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we anal...Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we analyze the motion of the projectile in the horizontal and vertical directions using the one-dimensional kinematic equations for x and y.
17.4: Examples
https://phys.libretexts.org/Courses/Gettysburg_College/Gettysburg_College_Physics_for_Physics_Majors/17%3A_N3)_2_Dimensional_Kinematics_and_Projectile_Motion/17.04%3A_Examples
Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we anal...Projectile motion is the motion of an object subject only to the acceleration of gravity, where the acceleration is constant, as near the surface of Earth. To solve projectile motion problems, we analyze the motion of the projectile in the horizontal and vertical directions using the one-dimensional kinematic equations for x and y.
PhET: Projectile Motion
https://phys.libretexts.org/Learning_Objects/Visualizations_and_Simulations/PhET_Simulations/PhET%3A_Projectile_Motion
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 repr...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.

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