if you had paper clips, rubber bands, wood chip, straight pins, strips of aluminum foil, and glass beads. using a property of matter classify thesse objects in a table
Why not classify them by matter?
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To classify these objects using a property of matter, we can choose a property such as "conductivity." The property of conductivity refers to the ability of a material to conduct electricity.
Step 1: Make a table with two columns: "Object" and "Conductivity."
Step 2: Examine each object and determine its conductivity.
- Paper clips: Paper clips are typically made of metal, such as steel, which is a good conductor of electricity. Therefore, you would mark "Conductive" under the conductivity column for paper clips.
- Rubber bands: Rubber is an insulator and does not conduct electricity. Therefore, you would mark "Non-conductive" under the conductivity column for rubber bands.
- Wood chip: Wood is also an insulator and does not conduct electricity. Therefore, you would mark "Non-conductive" under the conductivity column for wood chips.
- Straight pins: Straight pins are typically made of metal, such as stainless steel, which is a good conductor of electricity. Therefore, you would mark "Conductive" under the conductivity column for straight pins.
- Strips of aluminum foil: Aluminum is a good conductor of electricity. Therefore, you would mark "Conductive" under the conductivity column for aluminum foil.
- Glass beads: Glass is an insulator and does not conduct electricity. Therefore, you would mark "Non-conductive" under the conductivity column for glass beads.
Your completed table should look as follows:
| Object | Conductivity |
|-----------------|----------------------|
| Paper clips | Conductive |
| Rubber bands | Non-conductive |
| Wood chip | Non-conductive |
| Straight pins | Conductive |
| Aluminum foil | Conductive |
| Glass beads | Non-conductive |
By classifying these objects based on the property of conductivity, we can sort them into conductive and non-conductive categories, providing a table that organizes them based on their conductive behavior.