Imagine yourself walking around the backyard. On one side, the rose plants are thriving and full of vibrant flowers. On the other, the plants are weak and sparse.
Why the difference? You might guess it’s a lack of water or the dog urinating on some plants.
But to truly understand, we follow scientific thinking—a systematic, rational process.
Start by observing the two areas of plants and asking questions such as: Are pests present? Is the soil the same? Does sunlight differ?
Based on these observations, you can form a hypothesis. For example, you might hypothesize that sunlight plays a crucial role in plant growth.
To test the hypothesis, we perform experiments and obtain data or evidence.
Use this data to confirm or disprove your hypothesis. After you complete an experiment, you can publish your findings in scientific journals, allowing others to learn from your work.
What happens if the experiment disproved your hypothesis? That’s okay. Science is a continuous process. You observe again, form a new hypothesis, and test further.
Each step brings you closer to understanding the natural world.
Scientific Ways of Thinking
Scientific thinking is about asking questions, testing ideas, and using evidence to find answers. Instead of just guessing,…
Imagine yourself walking around the backyard. On one side, the rose plants are thriving and full of vibrant flowers. On the other, the plants are weak and sparse.
Why the difference? You might guess it’s a lack of water or the dog urinating on some plants.
But to truly understand, we follow scientific thinking—a systematic, rational process.
Start by observing the two areas of plants and asking questions such as: Are pests present? Is the soil the same? Does sunlight differ?
Based on these observations, you can form a hypothesis. For example, you might hypothesize that sunlight plays a crucial role in plant growth.
To test the hypothesis, we perform experiments and obtain data or evidence.
Use this data to confirm or disprove your hypothesis. After you complete an experiment, you can publish your findings in scientific journals, allowing others to learn from your work.
What happens if the experiment disproved your hypothesis? That’s okay. Science is a continuous process. You observe again, form a new hypothesis, and test further.
Each step brings you closer to understanding the natural world.
Imagine yourself walking around the backyard. On one side, the rose plants are thriving and full of vibrant flowers. On the other, the plants are weak and sparse.
Why the difference? You might guess it’s a lack of water or the dog urinating on some plants.
But to truly understand, we follow scientific thinking—a systematic, rational process.
Start by observing the two areas of plants and asking questions such as: Are pests present? Is the soil the same? Does sunlight differ?
Based on these observations, you can form a hypothesis. For example, you might hypothesize that sunlight plays a crucial role in plant growth.
To test the hypothesis, we perform experiments and obtain data or evidence.
Use this data to confirm or disprove your hypothesis. After you complete an experiment, you can publish your findings in scientific journals, allowing others to learn from your work.
What happens if the experiment disproved your hypothesis? That’s okay. Science is a continuous process. You observe again, form a new hypothesis, and test further.
Each step brings you closer to understanding the natural world.
View the full transcript and gain access to JoVE Core videos
From Chapter undefined:

Now Playing
Related Videos
122 Views

Related Videos
43 Views