The Sugar Shake Data Sheet provides a structured approach for students to observe and document the effects of shaking sugar cubes. It includes sections for recording trials, describing changes in shape, and predicting outcomes after multiple shakes. This resource is ideal for science educators and students conducting hands-on experiments in physical science. It encourages critical thinking and observation skills through practical application. The sheet also prompts students to consider the differences between sugar cubes and other materials, enhancing their understanding of physical properties.

Key Points

  • Includes detailed sections for recording observations of sugar cube trials.
  • Encourages students to predict changes in shape after multiple shakes.
  • Promotes critical thinking through comparisons with other materials.
  • Ideal for hands-on science experiments in educational settings.
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2 pages
Language:English
Type:Worksheet
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newtopiccyclegrowin
2 pages
Language:English
Type:Worksheet
Others
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1
Draw what your
sugar cube looks
like here:
Trial #
Shake this
many times:
Describe the shape of the sugar cubes
you shook. How did they change?
How many edges still
have some color?
#1 40
#2
switch jobs
40
#3
switch jobs
40
#4
switch jobs
40
#5
switch jobs
40
3
Sugar Shake Data Sheet
Name: ____________________
2
What will it look like
after 200 shakes?
Draw your best
guess here:
5
How many edges does a sugar cube have? _______
4
1
Does your drawing match your guess in question 2? Yes No
6
You’ve done 5 trials of 40 shakes each. That’s 200 shakes!
What do the sugar cubes look like now? Draw one in the box:
What happened to the sugar cubes when they bashed together in the container?
How are they different from the one you didn’t shake?
__________________________________________________________________________
__________________________________________________________________________
When you take the sugar cubes out of the container, what’s left in the container?
Where did that come from?
__________________________________________________________________________
__________________________________________________________________________
What do you think would happen if you shook rocks instead of sugar cubes?
__________________________________________________________________________
__________________________________________________________________________
__________________________________________________________________________
How many more shakes do you think it would take to make the sugar cubes really round
(like a marble)? ________________ If you have time, try it out!
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9
10
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FAQs

What happens to sugar cubes when they are shaken together?
When sugar cubes are shaken together in a container, they bash against each other, causing them to break apart. This physical interaction leads to changes in their shape and structure. Over time, the sugar cubes will lose their edges and become more rounded as they collide and grind against one another.
How many edges does a sugar cube have?
A sugar cube has six edges. This geometric property is important for understanding how the sugar cubes change shape during the shaking process.
What is the impact of shaking sugar cubes compared to not shaking them?
The sugar cubes that are shaken will differ significantly from the one that is not shaken. The shaken cubes will appear more rounded and may have lost some of their original shape due to the collisions. In contrast, the unshaken cube will retain its original form and edges.
What is left in the container after shaking the sugar cubes?
After shaking the sugar cubes, the container will have remnants of sugar that have broken off from the cubes. This material comes from the edges and corners of the cubes that have been chipped away during the shaking process.
What would happen if rocks were shaken instead of sugar cubes?
If rocks were shaken instead of sugar cubes, the outcome would likely be different due to their hardness and weight. Rocks may not break apart as easily as sugar cubes, and the shaking might only result in minor changes in their position rather than a significant alteration in shape.
How many shakes are estimated to make sugar cubes round like marbles?
The document prompts the reader to think about how many more shakes it would take to make the sugar cubes really round, like a marble. This question encourages experimentation and observation, inviting users to conduct their own trials to find an answer.

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