 Projectile motion (part 2) (video) Khan Academy Projectile Motion and Quadratic Functions I. ASSESSSMENT TASK OVERVIEW & PURPOSE: The student will examine the path of a projectile and explain the motion using a quadratic function. Neglecting air resistance, projectiles follow the path of a parabola in nature. Explain to students that the formula for free fall for any projectile is as

Projectile Motion Formulae Derivations Dynamics YouTube

Projectile Motion Formulas Softschools.com. Projectile Motion. Projectile refers to an object that is in flight after being thrown or projected. In a projectile motion, the only acceleration acting is in the vertical direction which is acceleration due to gravity (g). Equations of motion, therefore, can be applied separately in X-axis and Y-axis to find the unknown parameters.. Some examples of Projectile Motion are Football, A baseball, Jan 28, 2017В В· This video tutorial provides the formulas and equations needed to solve common projectile motion physics problems. It provides an introduction into the three types of graphs / trajectories that.

Jan 28, 2017В В· This video tutorial provides the formulas and equations needed to solve common projectile motion physics problems. It provides an introduction into the three types of graphs / trajectories that Projectile motion is the combination of two separate linear motions. The horizontal motion doesnвЂ™t aп¬Ђect the vertical motion, and vice versa. Since there is no acceleration in the horizontal direction (ignoring air resistance), the projectile moves with constant velocity in the x direction. And

We find the velocity of the free falling object by the equation V=g. t. If we have initial velocity then, our equation becomes; V=Vit+gt where acceleration is -9,8m/sВІ Distance is calculated considering the initial velocity of the object by the formula; We put вЂњ-вЂњsign because direction of g is downward. Horizontal distance and displacement can be calculated from the given formula as in the Projectile motion is a form of motion in which an object or particle (called a projectile) is thrown with some initial velocity near the earth's surface, and it moves along a curved path under the action of gravity alone. It is an example of two dimensional motion with constant acceleration.

Projectile motion is a form of motion experienced by an object or particle (a projectile) that is projected near the Earth's surface and moves along a curved path under the action of gravity only (in particular, the effects of air resistance are assumed to be negligible). the action of its weight alone, that is all other forces are ignored. Real objects such as balls and bullets can be modelled as projectiles. The motion of a projectile can be studied by splitting it into two components: horizontal motion and vertical motion. Assume the projectile starts from a point O.

horizontal motion is constant-velocity motion (with zero acceleration). A.1. Finding the flight time from the vertical motion The five variables for the vertical motion are: y = h a y = g v 0y = 0 m/s v y = donвЂ™t know, donвЂ™t care t = find this one where g = 9.8 m/s2, and h is the height of the projectile above the floor, and both are positive. For projectile motion under the influence of air resistance, the maximal range in x direction is by an angle below This presented Fig. 6. Figure 6: Trajectories of motion with three different

range formula projectile motion This video shows how to use the range formula to determine how far a projectile goes, and then the video shows how to use the range formula to calculate the Projectile Motion Formulas Pdf Projectile Motion Formulas Derivation For projectile motion under the influence of air resistance, the maximal range in x direction is by an angle below This presented Fig. 6. Figure 6: Trajectories of motion with three different

0067 Lecture Notes - Deriving the Range Equation of Projectile Motion.docx page 1 of 1 Flipping Physics Lecture Notes: Deriving the Range Equation of Projectile Motion The range of an object in projectile motion means something very specific. It is the displacement in the x direction of an object whose displacement in the y direction is zero. Apr 22, 2019В В· Projectile Motion When any object is thrown from horizontal at an angle Оё except 90В°, then the path followed by it is called trajectory, the object is called projectile and its motion is called projectile motion. If any object is thrown with velocity u, making an angle Оё, from horizontal, then Horizontal component of initial [вЂ¦]

Projectile Motion - Angled Launch Page 2 of 2 FDHS Physics D. Time to max height = the amount of time taken to reach the top of the objectвЂ™s trajectory (d ymax) which can be calculated using the basic kinematic equation, namely: That's all the time I have now, and in the next presentation, maybe I'll use this formula to solve a couple of other types of problems. Projectile motion (part 1) Projectile motion (part 3)

projectile motion. Some examples of projectile motion are the motion of a ball after being hit/thrown, the motion of a bullet after being fired and the motion of a person jumping off a diving board. For now, we will assume that the air, or any other fluid through which the object is вЂ¦ motion, and our goal will be to predict the motion of one or more objects subject to various forces. Simulations let us do this for any forces and any initial conditions, even when no explicit formula for the motion exists. In this project youвЂ™ll simulate the motion of вЂ¦

May 05, 2015В В· Next, the video derives the expression of horizontal velocity as a function of time and successively works out on the formula of calculating displacement вЂ¦ Projectile Motion - Angled Launch Page 2 of 2 FDHS Physics D. Time to max height = the amount of time taken to reach the top of the objectвЂ™s trajectory (d ymax) which can be calculated using the basic kinematic equation, namely:

Projectile motion is a form of motion where an object moves in a bilaterally symmetrical, parabolic path. The path that the object follows is called its trajectory. Projectile motion only occurs when there is one force applied at the beginning on the trajectory, after which the only interference is from gravity. horizontal motion is constant-velocity motion (with zero acceleration). A.1. Finding the flight time from the vertical motion The five variables for the vertical motion are: y = h a y = g v 0y = 0 m/s v y = donвЂ™t know, donвЂ™t care t = find this one where g = 9.8 m/s2, and h is the height of the projectile above the floor, and both are positive.

3.3 Projectile Motion Physics LibreTexts 0067 Lecture Notes Deriving the Range Equation of. Projectile Motion Formulas. A projectile is an object that is given an initial velocity, and is acted on by gravity. The path the object follows is determined by these effects (ignoring air resistance). This path is the object's trajectory. The trajectory has horizontal (x) and vertical (y) components., Topic 3: Kinematics вЂ“ Displacement, Velocity, Acceleration, 1- and 2-Dimensional Motion Source: Conceptual Physics textbook (Chapter 2 - second edition, laboratory book and concept-development practice book; CPO physics textbook and.

Projectile Motion. projectile motion. Some examples of projectile motion are the motion of a ball after being hit/thrown, the motion of a bullet after being fired and the motion of a person jumping off a diving board. For now, we will assume that the air, or any other fluid through which the object is вЂ¦, TOPIC 1.4: PROJECTILE MOTION S4P-1-15 Solve simple free-fall problems using the special equations for constant acceleration. Include: horizontal and vertical components of motion of the curved path of a projectile (without air resistance) S4P-1-16 Draw free-body diagrams for a projectile at various points along its path (with and without air.

Kinematics in 2-D (and 3-D) Range of projectile formula derivation physicscatalyst's. Assumptions of Projectile Motion ! The free-fall acceleration is constant over the range of motion ! It is directed downward ! It is reasonable as long as the range is small compared to the radius of the Earth ! The effect of air friction is negligible ! With these assumptions, an object in projectile motion will follow a вЂ¦ Projectile Motion вЂ“ Problem Solving Hints, cont. ! Analysis, cont ! Analyze the horizontal motion using constant velocity techniques ! Analyze the vertical motion using constant acceleration techniques ! Remember that both directions share the same time ! Finalize! Check to see if your answers are consistent with the. Projectile Motion The purpose of this lab is to study the properties of projectile motion. From the motion of a steel ball projected horizontally, the initial velocity of the ball can be determined from the measured range. For a given initial velocity, the projectile range will be measured for various initial angles, Formulas of Motion - Linear and Circular Linear and angular (rotation) acceleration, velocity, speed and distance . Sponsored Links . Linear Motion Formulas. Average velocity/speed of a moving object can be calculated as. Range of Projectile - Motion in two dimensions

Jan 28, 2017В В· This video tutorial provides the formulas and equations needed to solve common projectile motion physics problems. It provides an introduction into the three types of graphs / trajectories that Kinematic formulas and projectile motion. Average velocity for constant acceleration. Acceleration of aircraft carrier take-off. Airbus A380 take-off distance. Deriving displacement as a function of time, acceleration, and initial velocity. Plotting projectile displacement, acceleration, and velocity.

of the projectile motion by virtue of producing an acceleration opposite to the direction of motion. PeopleвЂ™s Physics Book 3e Ch 4-2 Two-Dimensional and Projectile Motion Problem Set Draw detailed pictures for each problem (putting in all the data, such as initial velocity, time, etc.), and write down your questions when you get stuck. horizontal motion is constant-velocity motion (with zero acceleration). A.1. Finding the flight time from the vertical motion The five variables for the vertical motion are: y = h a y = g v 0y = 0 m/s v y = donвЂ™t know, donвЂ™t care t = find this one where g = 9.8 m/s2, and h is the height of the projectile above the floor, and both are positive.

Assumptions of Projectile Motion ! The free-fall acceleration is constant over the range of motion ! It is directed downward ! It is reasonable as long as the range is small compared to the radius of the Earth ! The effect of air friction is negligible ! With these assumptions, an object in projectile motion will follow a вЂ¦ The Projectile Motion Equations These equations tell you everything about the motion of a projectile (neglecting air resistance). If you know the conditions (yo, vox, voy ) at t = 0 , then these equations tell you the position (x(t) , y(t)) of the projectile for all future time t > 0. Make sure you understand The Projectile Motion Equations .

Projectile Motion Formula Sheet You can find the proofs of these results in our tutorial videos Vertical Motion Acceleration: М€=в€’рќ‘” (where g is gravitational pull) The Projectile Motion Equations These equations tell you everything about the motion of a projectile (neglecting air resistance). If you know the conditions (yo, vox, voy ) at t = 0 , then these equations tell you the position (x(t) , y(t)) of the projectile for all future time t > 0. Make sure you understand The Projectile Motion Equations .

horizontal motion is constant-velocity motion (with zero acceleration). A.1. Finding the flight time from the vertical motion The five variables for the vertical motion are: y = h a y = g v 0y = 0 m/s v y = donвЂ™t know, donвЂ™t care t = find this one where g = 9.8 m/s2, and h is the height of the projectile above the floor, and both are positive. motion, and our goal will be to predict the motion of one or more objects subject to various forces. Simulations let us do this for any forces and any initial conditions, even when no explicit formula for the motion exists. In this project youвЂ™ll simulate the motion of вЂ¦

Projectile Motion Formula Sheet You can find the proofs of these results in our tutorial videos Vertical Motion Acceleration: М€=в€’рќ‘” (where g is gravitational pull) Projectile Motion Formula Sheet You can find the proofs of these results in our tutorial videos Vertical Motion Acceleration: М€=в€’рќ‘” (where g is gravitational pull)

Projectile motion is the combination of two separate linear motions. The horizontal motion doesnвЂ™t aп¬Ђect the vertical motion, and vice versa. Since there is no acceleration in the horizontal direction (ignoring air resistance), the projectile moves with constant velocity in the x direction. And of the projectile motion by virtue of producing an acceleration opposite to the direction of motion. PeopleвЂ™s Physics Book 3e Ch 4-2 Two-Dimensional and Projectile Motion Problem Set Draw detailed pictures for each problem (putting in all the data, such as initial velocity, time, etc.), and write down your questions when you get stuck.

Projectile motion is the combination of two separate linear motions. The horizontal motion doesnвЂ™t aп¬Ђect the vertical motion, and vice versa. Since there is no acceleration in the horizontal direction (ignoring air resistance), the projectile moves with constant velocity in the x direction. And Projectile motion is a form of motion experienced by an object or particle (a projectile) that is projected near the Earth's surface and moves along a curved path under the action of gravity only (in particular, the effects of air resistance are assumed to be negligible).

Assumptions of Projectile Motion ! The free-fall acceleration is constant over the range of motion ! It is directed downward ! It is reasonable as long as the range is small compared to the radius of the Earth ! The effect of air friction is negligible ! With these assumptions, an object in projectile motion will follow a вЂ¦ Projectile Motion and Quadratic Functions I. ASSESSSMENT TASK OVERVIEW & PURPOSE: The student will examine the path of a projectile and explain the motion using a quadratic function. Neglecting air resistance, projectiles follow the path of a parabola in nature. Explain to students that the formula for free fall for any projectile is as Kinematic formulas and projectile motion. Average velocity for constant acceleration. Acceleration of aircraft carrier take-off. Airbus A380 take-off distance. Deriving displacement as a function of time, acceleration, and initial velocity. Plotting projectile displacement, acceleration, and velocity. Projectile Motion Formula. One often experiences many kinds of motions in our daily life. Projectile motion is one among them.A projectile is some body thrown in space or air. The Curved path with which the projectile travels is what is termed as trajectory.

The Mathematics and Physics of Projectile Motion PeopleвЂ™s Physics book. For projectile motion under the influence of air resistance, the maximal range in x direction is by an angle below This presented Fig. 6. Figure 6: Trajectories of motion with three different, horizontal motion is constant-velocity motion (with zero acceleration). A.1. Finding the flight time from the vertical motion The five variables for the vertical motion are: y = h a y = g v 0y = 0 m/s v y = donвЂ™t know, donвЂ™t care t = find this one where g = 9.8 m/s2, and h is the height of the projectile above the floor, and both are positive..

Projectile Motion www-personal.umd.umich.edu

TOPIC 1.4 PROJECTILE MOTION. the action of its weight alone, that is all other forces are ignored. Real objects such as balls and bullets can be modelled as projectiles. The motion of a projectile can be studied by splitting it into two components: horizontal motion and vertical motion. Assume the projectile starts from a point O., For projectile motion under the influence of air resistance, the maximal range in x direction is by an angle below This presented Fig. 6. Figure 6: Trajectories of motion with three different.

Projectile Motion The purpose of this lab is to study the properties of projectile motion. From the motion of a steel ball projected horizontally, the initial velocity of the ball can be determined from the measured range. For a given initial velocity, the projectile range will be measured for various initial angles, Page 1/3 Formula Sheet Vectors: A x = AcosОё ; A y = AsinОё; A = 2 2 x A y x y A A tan 1 xiA yj G G G One dimensional motion with constant acceleration v v 0 at 2 0 0 2 1

The Projectile Motion Equations These equations tell you everything about the motion of a projectile (neglecting air resistance). If you know the conditions (yo, vox, voy ) at t = 0 , then these equations tell you the position (x(t) , y(t)) of the projectile for all future time t > 0. Make sure you understand The Projectile Motion Equations . Projectile Motion The purpose of this lab is to study the properties of projectile motion. From the motion of a steel ball projected horizontally, the initial velocity of the ball can be determined from the measured range. For a given initial velocity, the projectile range will be measured for various initial angles,

Projectile Motion The purpose of this lab is to study the properties of projectile motion. From the motion of a steel ball projected horizontally, the initial velocity of the ball can be determined from the measured range. For a given initial velocity, the projectile range will be measured for various initial angles, Apr 22, 2019В В· Projectile Motion When any object is thrown from horizontal at an angle Оё except 90В°, then the path followed by it is called trajectory, the object is called projectile and its motion is called projectile motion. If any object is thrown with velocity u, making an angle Оё, from horizontal, then Horizontal component of initial [вЂ¦]

of the projectile motion by virtue of producing an acceleration opposite to the direction of motion. PeopleвЂ™s Physics Book 3e Ch 4-2 Two-Dimensional and Projectile Motion Problem Set Draw detailed pictures for each problem (putting in all the data, such as initial velocity, time, etc.), and write down your questions when you get stuck. 3.2 Vertical projectile motion (ESCJW) In Grade 11, we studied the motion of objects in free fall and saw that such an object has a constant gravitational acceleration of $$\vec{g}$$. We now study the motion of objects that are moving upwards or downwards while experiencing a force due to gravity. We call this projectile motion.

Projectile Motion Formulas. A projectile is an object that is given an initial velocity, and is acted on by gravity. The path the object follows is determined by these effects (ignoring air resistance). This path is the object's trajectory. The trajectory has horizontal (x) and vertical (y) components. TOPIC 1.4: PROJECTILE MOTION S4P-1-15 Solve simple free-fall problems using the special equations for constant acceleration. Include: horizontal and vertical components of motion of the curved path of a projectile (without air resistance) S4P-1-16 Draw free-body diagrams for a projectile at various points along its path (with and without air

Projectile Motion with Resistance and the Lambert W Function Edward W. Packel and David S. Yuen Ed Packel (packel@lakeforest.edu) did his undergraduate work at Amherst College and received a вЂ¦ Projectile Motion Formula _ Formula for Projectile Motion _ Formulas@TutorVista.pdf - Free download as PDF File (.pdf), Text File (.txt) or read online for free. Scribd is the world's largest social reading and publishing site. Search Search. Close suggestions.

Projectile motion is the combination of two separate linear motions. The horizontal motion doesnвЂ™t aп¬Ђect the vertical motion, and vice versa. Since there is no acceleration in the horizontal direction (ignoring air resistance), the projectile moves with constant velocity in the x direction. And Projectile Motion вЂ“ Problem Solving Hints, cont. ! Analysis, cont ! Analyze the horizontal motion using constant velocity techniques ! Analyze the vertical motion using constant acceleration techniques ! Remember that both directions share the same time ! Finalize! Check to see if your answers are consistent with the

prove a formula from which we can compute the constant of resistance per unit mass of the projectile from time of flight and range of the motion when the acceleration due to gravity and the initial velocity of the projectile are known. Keywords: Time, flight, coefficient. Journal of Engineering Science and Technology Review 2 (1) (2009) 76-81 Jan 28, 2017В В· This video tutorial provides the formulas and equations needed to solve common projectile motion physics problems. It provides an introduction into the three types of graphs / trajectories that

We find the velocity of the free falling object by the equation V=g. t. If we have initial velocity then, our equation becomes; V=Vit+gt where acceleration is -9,8m/sВІ Distance is calculated considering the initial velocity of the object by the formula; We put вЂњ-вЂњsign because direction of g is downward. Horizontal distance and displacement can be calculated from the given formula as in the 0067 Lecture Notes - Deriving the Range Equation of Projectile Motion.docx page 1 of 1 Flipping Physics Lecture Notes: Deriving the Range Equation of Projectile Motion The range of an object in projectile motion means something very specific. It is the displacement in the x direction of an object whose displacement in the y direction is zero.

Projectile Motion The purpose of this lab is to study the properties of projectile motion. From the motion of a steel ball projected horizontally, the initial velocity of the ball can be determined from the measured range. For a given initial velocity, the projectile range will be measured for various initial angles, TOPIC 1.4: PROJECTILE MOTION S4P-1-15 Solve simple free-fall problems using the special equations for constant acceleration. Include: horizontal and vertical components of motion of the curved path of a projectile (without air resistance) S4P-1-16 Draw free-body diagrams for a projectile at various points along its path (with and without air

Projectile Motion Boston University Projectile Motion Formula Formula for Projectile Motion. A Few Projectile Motion Examples. We know that projectile motion is a type of two-dimensional motion or motion in a plane. It is assumed that the only force acting on a projectile (the object experiencing projectile motion) is the force due to gravity., Topic 3: Kinematics вЂ“ Displacement, Velocity, Acceleration, 1- and 2-Dimensional Motion Source: Conceptual Physics textbook (Chapter 2 - second edition, laboratory book and concept-development practice book; CPO physics textbook and.

Projectile motion Wikipedia. motion, and our goal will be to predict the motion of one or more objects subject to various forces. Simulations let us do this for any forces and any initial conditions, even when no explicit formula for the motion exists. In this project youвЂ™ll simulate the motion of вЂ¦, Projectile Motion Formula _ Formula for Projectile Motion _ Formulas@TutorVista.pdf - Free download as PDF File (.pdf), Text File (.txt) or read online for free. Scribd is the world's largest social reading and publishing site. Search Search. Close suggestions..

(Angled) Projectile Motion Hints & Formulas TOPIC 1.4 PROJECTILE MOTION. Projectile Motion Formulas. A projectile is an object that is given an initial velocity, and is acted on by gravity. The path the object follows is determined by these effects (ignoring air resistance). This path is the object's trajectory. The trajectory has horizontal (x) and vertical (y) components. of the projectile motion by virtue of producing an acceleration opposite to the direction of motion. PeopleвЂ™s Physics Book 3e Ch 4-2 Two-Dimensional and Projectile Motion Problem Set Draw detailed pictures for each problem (putting in all the data, such as initial velocity, time, etc.), and write down your questions when you get stuck.. Projectile Motion Part 2 Projectiles Launched Upward. 3 How does a projectile launched from the ground differ from a free falling object? zAny projectile is a free falling object under the influence of gravity. zThe only difference is that the projectile has to go up, before it can come down. A Few Projectile Motion Examples. We know that projectile motion is a type of two-dimensional motion or motion in a plane. It is assumed that the only force acting on a projectile (the object experiencing projectile motion) is the force due to gravity.

Projectile Motion. Projectile refers to an object that is in flight after being thrown or projected. In a projectile motion, the only acceleration acting is in the vertical direction which is acceleration due to gravity (g). Equations of motion, therefore, can be applied separately in X-axis and Y-axis to find the unknown parameters.. Some examples of Projectile Motion are Football, A baseball Formulas of Motion - Linear and Circular Linear and angular (rotation) acceleration, velocity, speed and distance . Sponsored Links . Linear Motion Formulas. Average velocity/speed of a moving object can be calculated as. Range of Projectile - Motion in two dimensions

Oct 06, 2019В В· This article is about the range of projectile formula derivation. I have tried to make it as easy as possible but you need to know a few basics of projectile motion to get a clear idea. This is an important topic that involves Motion in a plane with Constant Acceleration. Assumptions of Projectile Motion ! The free-fall acceleration is constant over the range of motion ! It is directed downward ! It is reasonable as long as the range is small compared to the radius of the Earth ! The effect of air friction is negligible ! With these assumptions, an object in projectile motion will follow a вЂ¦

The Projectile Motion Equations These equations tell you everything about the motion of a projectile (neglecting air resistance). If you know the conditions (yo, vox, voy ) at t = 0 , then these equations tell you the position (x(t) , y(t)) of the projectile for all future time t > 0. Make sure you understand The Projectile Motion Equations . For projectile motion under the influence of air resistance, the maximal range in x direction is by an angle below This presented Fig. 6. Figure 6: Trajectories of motion with three different

Projectile Motion. Projectile refers to an object that is in flight after being thrown or projected. In a projectile motion, the only acceleration acting is in the vertical direction which is acceleration due to gravity (g). Equations of motion, therefore, can be applied separately in X-axis and Y-axis to find the unknown parameters.. Some examples of Projectile Motion are Football, A baseball Kinematic formulas and projectile motion. Average velocity for constant acceleration. Acceleration of aircraft carrier take-off. Airbus A380 take-off distance. Deriving displacement as a function of time, acceleration, and initial velocity. Plotting projectile displacement, acceleration, and velocity.

We comment on the article 'Wind-influenced projectile motion' by Bernardo et al (2015 Eur. J. Phys. 36 025016) where they examine the trajectory of a particle that is subjected to gravity and a Jan 28, 2017В В· This video tutorial provides the formulas and equations needed to solve common projectile motion physics problems. It provides an introduction into the three types of graphs / trajectories that

May 05, 2015В В· Next, the video derives the expression of horizontal velocity as a function of time and successively works out on the formula of calculating displacement вЂ¦ TOPIC 1.4: PROJECTILE MOTION S4P-1-15 Solve simple free-fall problems using the special equations for constant acceleration. Include: horizontal and vertical components of motion of the curved path of a projectile (without air resistance) S4P-1-16 Draw free-body diagrams for a projectile at various points along its path (with and without air

Kinematic formulas and projectile motion. Average velocity for constant acceleration. Acceleration of aircraft carrier take-off. Airbus A380 take-off distance. Deriving displacement as a function of time, acceleration, and initial velocity. Plotting projectile displacement, acceleration, and velocity. Projectile motion is a form of motion experienced by an object or particle (a projectile) that is projected near the Earth's surface and moves along a curved path under the action of gravity only (in particular, the effects of air resistance are assumed to be negligible).

projectile motion. Some examples of projectile motion are the motion of a ball after being hit/thrown, the motion of a bullet after being fired and the motion of a person jumping off a diving board. For now, we will assume that the air, or any other fluid through which the object is вЂ¦ The Projectile Motion Equations These equations tell you everything about the motion of a projectile (neglecting air resistance). If you know the conditions (yo, vox, voy ) at t = 0 , then these equations tell you the position (x(t) , y(t)) of the projectile for all future time t > 0. Make sure you understand The Projectile Motion Equations .

Projectile Motion Formulas. A projectile is an object that is given an initial velocity, and is acted on by gravity. The path the object follows is determined by these effects (ignoring air resistance). This path is the object's trajectory. The trajectory has horizontal (x) and vertical (y) components. the action of its weight alone, that is all other forces are ignored. Real objects such as balls and bullets can be modelled as projectiles. The motion of a projectile can be studied by splitting it into two components: horizontal motion and vertical motion. Assume the projectile starts from a point O.

Projectile Motion. Projectile refers to an object that is in flight after being thrown or projected. In a projectile motion, the only acceleration acting is in the vertical direction which is acceleration due to gravity (g). Equations of motion, therefore, can be applied separately in X-axis and Y-axis to find the unknown parameters.. Some examples of Projectile Motion are Football, A baseball projectile motion. Some examples of projectile motion are the motion of a ball after being hit/thrown, the motion of a bullet after being fired and the motion of a person jumping off a diving board. For now, we will assume that the air, or any other fluid through which the object is вЂ¦