Part 2. Charge the wall by bringing the charged yellow balloon near it. The negative charges of the wall are repelled from the balloon and move away, while the positive charges remain in place. Observe that when you now touch the balloon to the wall it will stick to the wall. This method of charging is known as charging by polarization. It requires the presence of polar molecules such as those in the materials in the wall. These polar molecules have a limited freedom to move, and they respond to charges by the slight shifts in their electron clouds. I ords Part 3: Reset the simulation by clicking on the "Reset" button Click and drag on the green balloon so that it is next to the yellow balloon. DX e here to search Text Predictions: On Accessibility: Investigate ✿ Focus 00 94°F Mostly cloudy
Part 2. Charge the wall by bringing the charged yellow balloon near it. The negative charges of the wall are repelled from the balloon and move away, while the positive charges remain in place. Observe that when you now touch the balloon to the wall it will stick to the wall. This method of charging is known as charging by polarization. It requires the presence of polar molecules such as those in the materials in the wall. These polar molecules have a limited freedom to move, and they respond to charges by the slight shifts in their electron clouds. I ords Part 3: Reset the simulation by clicking on the "Reset" button Click and drag on the green balloon so that it is next to the yellow balloon. DX e here to search Text Predictions: On Accessibility: Investigate ✿ Focus 00 94°F Mostly cloudy
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Transcribed Image Text:Part 2. Charge the wall by bringing the charged yellow balloon near it. The negative
charges of the wall are repelled from the balloon and move away, while the positive
charges remain in place. Observe that when you now touch the balloon to the wall it will
stick to the wall. This method of charging is known as charging by polarization. It
requires the presence of polar molecules such as those in the materials in the wall.
These polar molecules have a limited freedom to move, and they respond to charges by
the slight shifts in their electron clouds.
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3 words
Part 3:
Reset the simulation by clicking on the "Reset" button
Click and drag on the green balloon so that it is next to the yellow balloon.
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Transcribed Image Text:words
6. From the experiment in Part 2 we see that
a) the negatively charged balloon pushed aside the protons (positive charges) in the
wall, making the outer surface of the wall slightly positive, which then attracted the
negatively charged balloon causing it to stick.
b) the negatively charged balloon pushed aside the protons (positive charges) in the
wall, making the outer surface of the wall slightly negative, which then attracted the
negatively charged balloon causing it to stick.
c) the positively charged balloon pushed aside the electrons (negative charges) in the
wall, making the outer surface of the wall slightly positive, which then attracted the
positively charged balloon causing it to stick.
d) the negatively charged balloon pushed aside the electrons (negative charges) in the
wall, making the outer surface of the wall slightly positive, which then attracted the
negatively charged balloon causing it to stick.
7. From the experiment in Part 3 we see that after rubbing both balloons against the
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