Question
DIRECTIONS: Read the passage carefully and use the information to help you answer the open response question.
Energy is all around us, and it comes in many forms, including light, heat, sound, and motion. One important concept in science is the idea of energy transformations. This refers to the process of changing energy from one form to another. Energy cannot be created or destroyed; it can only be transformed. This is known as the law of conservation of energy.
A common example of energy transformation happens when you use a toaster. When you plug in a toaster, electrical energy flows into it. Inside the toaster, the electrical energy is transformed into thermal energy (heat) that cooks the bread. The metal coils inside the toaster heat up, and the heat radiates onto the bread, making it toast. In this case, the electrical energy changes into thermal energy.
Another example is the transformation of potential energy into kinetic energy. When you wind up a toy car, you are giving it potential energy, which is stored energy. As the car is released, the stored energy turns into kinetic energy, the energy of motion, and the car speeds off.
In the process of energy transformations, there is often some loss of energy as heat, which is why machines and devices may feel warm after being used for a while. This loss of energy to the surroundings is called waste energy, and scientists work hard to reduce it in order to make machines more efficient.
Energy transformations occur in nature as well. For example, plants use solar energy from the sun to carry out photosynthesis, a process where they convert sunlight into chemical energy stored in sugars. Animals then eat plants or other animals and use the chemical energy in those foods to power their movements and growth.
In both a toaster and a plant during photosynthesis, energy is transformed from one form to another.
In a toaster, electrical energy is transformed into thermal energy (heat) to toast the bread. This transformation happens when electrical energy flows through the toaster's metal coils, which then heat up and cook the bread.
In a plant during photosynthesis, solar energy from the sun is transformed into chemical energy. The plant absorbs sunlight through its leaves, and this energy is used to convert carbon dioxide and water into sugars, which are stored as chemical energy.
Thus, while both examples involve the transformation of energy, they do so in different ways and for different purposes.
Understanding energy transformations helps us see how interconnected all forms of energy are, and it is a key idea in both science and everyday life.
QUESTION: How do energy transformations in a toaster compare to the energy transformations that happen in a plant during photosynthesis? Use examples from the passage to explain at least one similarity and one difference.
TOTAL POINTS POSSIBLE = 6 points
*One similarity = 2 points
*One difference = 2 points
*Use of examples from passage = 2 points
Energy is all around us, and it comes in many forms, including light, heat, sound, and motion. One important concept in science is the idea of energy transformations. This refers to the process of changing energy from one form to another. Energy cannot be created or destroyed; it can only be transformed. This is known as the law of conservation of energy.
A common example of energy transformation happens when you use a toaster. When you plug in a toaster, electrical energy flows into it. Inside the toaster, the electrical energy is transformed into thermal energy (heat) that cooks the bread. The metal coils inside the toaster heat up, and the heat radiates onto the bread, making it toast. In this case, the electrical energy changes into thermal energy.
Another example is the transformation of potential energy into kinetic energy. When you wind up a toy car, you are giving it potential energy, which is stored energy. As the car is released, the stored energy turns into kinetic energy, the energy of motion, and the car speeds off.
In the process of energy transformations, there is often some loss of energy as heat, which is why machines and devices may feel warm after being used for a while. This loss of energy to the surroundings is called waste energy, and scientists work hard to reduce it in order to make machines more efficient.
Energy transformations occur in nature as well. For example, plants use solar energy from the sun to carry out photosynthesis, a process where they convert sunlight into chemical energy stored in sugars. Animals then eat plants or other animals and use the chemical energy in those foods to power their movements and growth.
In both a toaster and a plant during photosynthesis, energy is transformed from one form to another.
In a toaster, electrical energy is transformed into thermal energy (heat) to toast the bread. This transformation happens when electrical energy flows through the toaster's metal coils, which then heat up and cook the bread.
In a plant during photosynthesis, solar energy from the sun is transformed into chemical energy. The plant absorbs sunlight through its leaves, and this energy is used to convert carbon dioxide and water into sugars, which are stored as chemical energy.
Thus, while both examples involve the transformation of energy, they do so in different ways and for different purposes.
Understanding energy transformations helps us see how interconnected all forms of energy are, and it is a key idea in both science and everyday life.
QUESTION: How do energy transformations in a toaster compare to the energy transformations that happen in a plant during photosynthesis? Use examples from the passage to explain at least one similarity and one difference.
TOTAL POINTS POSSIBLE = 6 points
*One similarity = 2 points
*One difference = 2 points
*Use of examples from passage = 2 points
Answers
GPT-4o mini
Energy transformations in a toaster and in a plant during photosynthesis illustrate both similarities and differences in how energy is converted from one form to another.
**One similarity** between the two processes is that both involve the transformation of energy to serve a specific purpose. In a toaster, electrical energy is transformed into thermal energy (heat), which is used to cook the bread. Similarly, in a plant during photosynthesis, solar energy is transformed into chemical energy stored in sugars, which the plant uses for growth and energy. Both processes demonstrate how energy can be changed to meet the needs of the system, whether it be to toast bread or to fuel a plant's development.
**One difference** lies in the types of energy involved and the sources of that energy. In a toaster, the transformation begins with electrical energy, which is provided from an external power source when the toaster is plugged in. In contrast, a plant uses solar energy, which it absorbs directly from sunlight, to perform photosynthesis. Hence, while the toaster converts electrical energy into thermal energy, the plant converts solar energy into chemical energy.
These distinctions highlight how energy transformations occur in various contexts — mechanical and artificial in the case of the toaster, vs. biological and natural in the case of the plant.
**One similarity** between the two processes is that both involve the transformation of energy to serve a specific purpose. In a toaster, electrical energy is transformed into thermal energy (heat), which is used to cook the bread. Similarly, in a plant during photosynthesis, solar energy is transformed into chemical energy stored in sugars, which the plant uses for growth and energy. Both processes demonstrate how energy can be changed to meet the needs of the system, whether it be to toast bread or to fuel a plant's development.
**One difference** lies in the types of energy involved and the sources of that energy. In a toaster, the transformation begins with electrical energy, which is provided from an external power source when the toaster is plugged in. In contrast, a plant uses solar energy, which it absorbs directly from sunlight, to perform photosynthesis. Hence, while the toaster converts electrical energy into thermal energy, the plant converts solar energy into chemical energy.
These distinctions highlight how energy transformations occur in various contexts — mechanical and artificial in the case of the toaster, vs. biological and natural in the case of the plant.