Assignment: Transformation of Energy SC.7.P.11.2 Assignment

Created by sreenivasan narayana m on

91 activities: 91 games

1057 min

Activity 1: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 2: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 3: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 4: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 5: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 6: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 7: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 8: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 9: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 10: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 11: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 12: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 13: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 14: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 15: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 16: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 17: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 18: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 19: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 20: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 21: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 22: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 23: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 24: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 25: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 26: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 27: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 28: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 29: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 30: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 31: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 32: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 33: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 34: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 35: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 36: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 37: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 38: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 39: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 40: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 41: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 42: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 43: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 44: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 45: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 46: Instructional Game. Estimated duration: 17 min

Light Shot - Transmission and Refraction of Light

Light usually travels in straight lines but did you know that you can bend it using different materials? In this game, you will use a light ray to shoot and refract light. Your player will be transported to wherever her ray goes. As you play, you'll learn about how different materials bend light in different ways. Are you bright enough for this puzzle?

Ratings

Teacher Ratings (22) 3.4 stars.

Student Ratings (7181) 3.7 stars.

Activity 47: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 48: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 49: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 50: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 51: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 52: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 53: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 54: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 55: Instructional Game. Estimated duration: 15 min

Guiding Lights

Use the laws of refraction and reflection to solve puzzles!

Ratings

Teacher Ratings (14) 3.9 stars.

Student Ratings (2377) 3.3 stars.

Activity 56: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 57: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 58: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 59: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 60: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 61: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 62: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 63: Instructional Game. Estimated duration: 20 min

Light:House

Learn how light is reflected, absorbed, and transmitted by bringing light back to a dark land. Players will learn in-game from tutors on how light interacts with mirrors, prisms, filters, opaque objects and transparent lenses. Gameplay takes the student through 14 levels where they must use their knowledge to direct light beams into darkened houses without waking the moths that have infested the land.

Ratings

Teacher Ratings (2) 4.0 stars.

Student Ratings (283) 3.4 stars.

Activity 64: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 65: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 66: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 67: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 68: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 69: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 70: Instructional Game. Estimated duration: 9 min

Temple of Light

Do you dare to enter the Temple of Light? The crystal in the temple must be displayed in a museum because it is so rare. You are the only one who can retrieve it. Are you up to the challenge? As you search the levels of the temple for the crystal you will learn so much about the properties of light. Search the temple well and you will achieve a high score.

Ratings

Teacher Ratings (105) 4.3 stars.

Student Ratings (36120) 3.9 stars.

Activity 71: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 72: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 73: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 74: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 75: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 76: Video Game. Estimated duration: 4 min

Conservation of Energy

The fundamental concept of the conservation of energy explains how energy transforms and transfers in various forms. The Law of Conservation of Energy states that energy cannot be created or destroyed, only transformed. Energy is categorized into potential (stored) and kinetic (moving) energy. Examples like roller coasters, food, gasoline, and light switches illustrate these transformations. For instance, gasoline's potential chemical energy converts to kinetic energy to power a car. Understanding these processes highlights the continuous and interconnected nature of energy in our daily lives.

Ratings

Teacher Ratings (3) 5.0 stars.

Student Ratings (631) 3.4 stars.

Activity 77: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 78: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 79: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 80: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 81: Video Game. Estimated duration: 3 min

Kinetic Energy

Kinetic energy, the energy of movement, is a fundamental force driving many phenomena in our universe. It manifests in forms like mechanical, electrical, light, thermal, and sound energy, affecting our daily activities such as moving, digesting food, and listening to music. Derived from the Greek word "kinein," meaning "to move," kinetic energy is influenced by an object's mass and velocity and can be calculated using the equation KE = 1/2 mv². Understanding kinetic energy's role in motion and its transformative power helps us appreciate its pervasive impact on our lives and the universe.

Ratings

Teacher Ratings (2) 5.0 stars.

Student Ratings (763) 3.5 stars.

Activity 82: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 83: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 84: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 85: Instructional Game. Estimated duration: 9 min

Physics Putter

Learn about Physics and Conservation of Energy as we help our favorite Technician get a ball from the virtual warehouse. But the ball is so heavy! How will you move it? Why, by putting of course!

Ratings

Teacher Ratings (19) 4.3 stars.

Student Ratings (10240) 3.7 stars.

Activity 86: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 87: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 88: Instructional Game. Estimated duration: 15 min

Path of Energy

The hero goes on a journey to fulfill his dreams by passing tests based on kinetic energy to become a disciple of the Sage. The player controls the hero, travels in a colorful 3D world, and learns all the necessary theory to solve various tasks.

Ratings

Teacher Ratings (96) 4.4 stars.

Student Ratings (34296) 3.7 stars.

Activity 89: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 90: Instructional Game. Estimated duration: 15 min

Joule Thieves

Thieves are about, and they want energy, in all its forms! Roll marbles down ramps, feed cheese to dogs, and batteries to lightbulbs! Change energy from one form to many others, and get the thieves what they want!

Ratings

Teacher Ratings (16) 4.1 stars.

Student Ratings (8670) 4.1 stars.

Activity 91: Instructional Game. Estimated duration: 23 min

Kinetic Command: Alien Activity Regulators

A rookie agent has just been admitted into an elite Earth-based organization, tasked with the monumental responsibility of managing alien affairs on our home planet. The agent will need to utilize their understanding of kinetic energy as a crucial tool in their mission to thwart an impending alien invasion.

Ratings

Teacher Ratings (7) 4.6 stars.

Student Ratings (1211) 3.3 stars.