Photosynthesis is a process by which plants produce glucose using sunlight, carbon dioxide, and water. In Mr. Johnson's garden, sunflowers engage in phototropism to optimize sunlight exposure for better photosynthesis.
Photosynthesis is the biological process in which plants, some bacteria, and protists use sunlight's energy to convert carbon dioxide and water into glucose, a sugar that serves as their food. This conversion also results in the production of oxygen, which is essential for animal life. In the context of Mr. Johnson's garden, the sunflowers carry out photosynthesis to produce their own food and are a great example of how plants utilize light energy.
The sunflowers' movement following the sun is due to a process called phototropism, which is a plant’s growth response to light direction. This is different from photosynthesis; however, phototropism can enhance photosynthesis by maximizing the amount of sunlight the leaves receive, thus increasing the plant's ability to produce glucose and energy.
The probable question may be:
In our community, we have a passage about our friendly neighbor, Mr. Johnson, who has a fascinating garden. He grows different types of flowers, and many birds visit his garden. To understand the science behind Mr. Johnson's garden, let's explore the concept of photosynthesis.
Additional Information:
Mr. Johnson, our friendly neighbor, is a keen gardener. He cultivates sunflowers, roses, and tulips in his garden. As we know, plants need sunlight to make their food through a process called photosynthesis. In Mr. Johnson's garden, the sunflowers are especially interesting. They have a unique ability to turn towards the sun as it moves across the sky.
Consider this: If a sunflower in Mr. Johnson's garden is initially facing east in the morning, and then turns to face west by the evening, what scientific process is responsible for this movement, and how does it relate to the concept of photosynthesis?