10 A - Aa-FontA A - HAL TParagraphTOTOO LATE CIT OMNCT.T NormalT No Spac... Heading 1StylesEditing Dictate SerVoiced) the strings of the two balloons got tangled up in such a way tmoved away from each other.10. From this lab we can conclude thata) opposite charges repel, like charges attract.b) opposite charges attract, like charges repel.c) opposite charges attract sometimes and repel sometimes.d) like charges attract sometimes and repel sometimes.SerI11. From this lab we can conclude thata) the heat transferred when objects are rubbed together createcause objects to move towards or away from each other.sweaters have a natural affinity http://phet.colorado.edu/en/simulation/balloonsClick on the simulation to play it.Part 1. Charge the yellow balloon by rubbing it against the sweater. To do this start thesimulation, then click on and drag the yellow balloon over to the sweater and rub itagainst the sweater. The balloon will pick up negative charges (electrons) from thesweater. Confirm that the balloon is charged by dragging it away from the sweater andthen releasing the balloon. The negatively charged balloon will be attracted to thepositively charged sweater. This method of charging objects by transferring chargesbetween them is called charging by friction or rubbing.Part 2. Charge the wall by bringing the charged yellow balloon near it. The negativecharges of the wall are repelled from the balloon and move away, while the positivecharges remain in place. Observe that when you now touch the balloon to the wall it willstick to the wall. This method of charging is known as charging by polarization. Itrequires 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 bythe slight shifts in their electron clouds.hpPart 3:Reset the simulation by clicking on the "Reset" buttonClick and drag on the green balloon so that it is next to the yellow balloon.Charge the yellow balloon by rubbing it against the sleeve of the sweater.Charge the green balloon by rubbing it against the bottom part of the sweaterMove the green balloon to the blue area of the simulation window. Now bring thecharged yellow balloon next to the yellow balloon. Since both the balloons have thesame charge, you should see an interaction between these two balloons.Focus92°F Partly cloudy09:33 PM7/17/2022

Given, Two experiments related to charging the objects with different methods.

10. From this lab we can conclude that a) opposite charges repel, like charges attract. b) opposite charges attract, like charges repel. c) opposite charges attract sometimes and repel sometimes. d) like charges attract sometimes and repel sometimes.

10. From this lab we can conclude that a) opposite charges repel, like charges attract. b) opposite charges attract, like charges repel. c) opposite charges attract sometimes and repel sometimes. d) like charges attract sometimes and repel sometimes.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

A - Aa-
Font
A A - H
AL T
Paragraph
TOTOO LATE CIT OMNCT.
T Normal
T No Spac... Heading 1
Styles
Editing Dictate Ser
Voice
d) the strings of the two balloons got tangled up in such a way t
moved away from each other.
10. From this lab we can conclude that
a) opposite charges repel, like charges attract.
b) opposite charges attract, like charges repel.
c) opposite charges attract sometimes and repel sometimes.
d) like charges attract sometimes and repel sometimes.
Ser
I
11. From this lab we can conclude that
a) the heat transferred when objects are rubbed together create
cause objects to move towards or away from each other.
sweaters have a natural affinity

http://phet.colorado.edu/en/simulation/balloons
Click on the simulation to play it.
Part 1. Charge the yellow balloon by rubbing it against the sweater. To do this start the
simulation, then click on and drag the yellow balloon over to the sweater and rub it
against the sweater. The balloon will pick up negative charges (electrons) from the
sweater. Confirm that the balloon is charged by dragging it away from the sweater and
then releasing the balloon. The negatively charged balloon will be attracted to the
positively charged sweater. This method of charging objects by transferring charges
between them is called charging by friction or rubbing.
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.
hp
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.
Charge the yellow balloon by rubbing it against the sleeve of the sweater.
Charge the green balloon by rubbing it against the bottom part of the sweater
Move the green balloon to the blue area of the simulation window. Now bring the
charged yellow balloon next to the yellow balloon. Since both the balloons have the
same charge, you should see an interaction between these two balloons.
Focus
92°F Partly cloudy
0
9:33 PM
7/17/2022

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