Assessment TASK: Dear learners, Choose one of the global issues or problems related to the topics that we have studied in which physics is applied and used to address this problem or global issue and the Physics implications to solve this problem or issue, to work on and submit before (Deadline: Wed., MAY 15th, 2024). These are some suggested topics, issues, problems or you may choose your own topic after your teacher's approval: 1. Projectile Motion Simulation: Create a computer simulation to model the trajectory of a projectile launched at different angles and velocities. Analyze how changes in initial conditions affect the projectile's range, height, and time of flight. 2. Relative Motion in Sports: Investigate how relative motion concepts apply to various sports. Analyze scenarios such as a soccer player kicking a ball, a basketball player shooting a free throw, or a sprinter running around a curved track. 3. Projectile Motion in Nature: Study examples of projectile motion in nature, such as the trajectory of a thrown object or the flight path of a bird. Collect data and analyze factors influencing the motion, such as air resistance, gravity, and initial velocity. 4. Relative Motion in Transportation: Investigate how relative motion concepts apply to different modes of transportation, such as cars, trains, and airplanes. Analyze scenarios such as overtaking, head-on collisions, and changing lanes to understand the importance of relative velocity in safe driving. 5. Circular Motion in Astronomy: Explore circular motion in the context of celestial bodies, such as planets orbiting the sun or moons orbiting a planet. Use mathematical models to calculate orbital velocities, periods, and centripetal forces for various astronomical objects. 6. Projectile Motion in Sports Science: Conduct experiments to analyze the projectile motion of objects used in sports, such as balls, javelins, or shuttlecocks. Measure launch angles, velocities, and distances to optimize performance and technique in sports training. 7. Relative Motion in Marine Biology: Study relative motion concepts in the movement of marine animals, such as fish swimming in a school or whales migrating across oceans. Use video analysis and mathematical modeling to understand how relative velocities impact social behavior and navigation. 8. Projectile Motion in Artillery Design: Research historical and modern artillery designs to understand the principles of projectile motion used in military technology. Explore factors such as launch angle, muzzle velocity, and projectile shape to maximize accuracy and range in artillery systems.
Assessment TASK: Dear learners, Choose one of the global issues or problems related to the topics that we have studied in which physics is applied and used to address this problem or global issue and the Physics implications to solve this problem or issue, to work on and submit before (Deadline: Wed., MAY 15th, 2024). These are some suggested topics, issues, problems or you may choose your own topic after your teacher's approval: 1. Projectile Motion Simulation: Create a computer simulation to model the trajectory of a projectile launched at different angles and velocities. Analyze how changes in initial conditions affect the projectile's range, height, and time of flight. 2. Relative Motion in Sports: Investigate how relative motion concepts apply to various sports. Analyze scenarios such as a soccer player kicking a ball, a basketball player shooting a free throw, or a sprinter running around a curved track. 3. Projectile Motion in Nature: Study examples of projectile motion in nature, such as the trajectory of a thrown object or the flight path of a bird. Collect data and analyze factors influencing the motion, such as air resistance, gravity, and initial velocity. 4. Relative Motion in Transportation: Investigate how relative motion concepts apply to different modes of transportation, such as cars, trains, and airplanes. Analyze scenarios such as overtaking, head-on collisions, and changing lanes to understand the importance of relative velocity in safe driving. 5. Circular Motion in Astronomy: Explore circular motion in the context of celestial bodies, such as planets orbiting the sun or moons orbiting a planet. Use mathematical models to calculate orbital velocities, periods, and centripetal forces for various astronomical objects. 6. Projectile Motion in Sports Science: Conduct experiments to analyze the projectile motion of objects used in sports, such as balls, javelins, or shuttlecocks. Measure launch angles, velocities, and distances to optimize performance and technique in sports training. 7. Relative Motion in Marine Biology: Study relative motion concepts in the movement of marine animals, such as fish swimming in a school or whales migrating across oceans. Use video analysis and mathematical modeling to understand how relative velocities impact social behavior and navigation. 8. Projectile Motion in Artillery Design: Research historical and modern artillery designs to understand the principles of projectile motion used in military technology. Explore factors such as launch angle, muzzle velocity, and projectile shape to maximize accuracy and range in artillery systems.
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Transcribed Image Text:Assessment TASK:
Dear learners,
Choose one of the global issues or problems related to the topics that we have studied in which
physics is applied and used to address this problem or global issue and the Physics implications to solve
this problem or issue, to work on and submit before (Deadline: Wed., MAY 15th, 2024).
These are some suggested topics, issues, problems or you may choose your own topic after your teacher's
approval:
1. Projectile Motion Simulation: Create a computer simulation to model the trajectory of a
projectile launched at different angles and velocities. Analyze how changes in initial
conditions affect the projectile's range, height, and time of flight.
2. Relative Motion in Sports: Investigate how relative motion concepts apply to various
sports. Analyze scenarios such as a soccer player kicking a ball, a basketball player shooting a
free throw, or a sprinter running around a curved track.
3. Projectile Motion in Nature: Study examples of projectile motion in nature, such as the
trajectory of a thrown object or the flight path of a bird. Collect data and analyze factors
influencing the motion, such as air resistance, gravity, and initial velocity.
4. Relative Motion in Transportation: Investigate how relative motion concepts apply to
different modes of transportation, such as cars, trains, and airplanes. Analyze scenarios such
as overtaking, head-on collisions, and changing lanes to understand the importance of
relative velocity in safe driving.
5. Circular Motion in Astronomy: Explore circular motion in the context of celestial bodies,
such as planets orbiting the sun or moons orbiting a planet. Use mathematical models to
calculate orbital velocities, periods, and centripetal forces for various astronomical objects.
6. Projectile Motion in Sports Science: Conduct experiments to analyze the projectile motion
of objects used in sports, such as balls, javelins, or shuttlecocks. Measure launch angles,
velocities, and distances to optimize performance and technique in sports training.
7. Relative Motion in Marine Biology: Study relative motion concepts in the movement of
marine animals, such as fish swimming in a school or whales migrating across oceans. Use
video analysis and mathematical modeling to understand how relative velocities impact social
behavior and navigation.
8. Projectile Motion in Artillery Design: Research historical and modern artillery designs to
understand the principles of projectile motion used in military technology. Explore factors
such as launch angle, muzzle velocity, and projectile shape to maximize accuracy and range in
artillery systems.
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