Friday, December 21, 2012


LAB #6 – Measurement: Volume

Introduction
Volume is the amount of space occupied by matter - solid, liquid, or gas.
Volume is measured in units: cm3 for a solid, mL for a liquid. 

Problem
-         A: How can we find the volume of a rectangular block? 
-         B: How can we find the volume of an irregularly
           shaped object?

Hypothesis:
-

Materials
-         Various sized blocks, irregular shaped objects, ruler, graduated cylinder

Procedure A
 1) Use a metric ruler to measure the dimensions of your rectangular objects; measure to the nearest tenth (0.1) cm.
 2) Calculate the volume in cm3 of your rectangular object by multiplying the length (cm) times the width (cm) times the height (cm). V = L x W x H
 3) Record your measurements in the data table.
  
Results
Data Table: Volume of rectangular objects
        
Object
length (cm)
width (cm)
height (cm)
Volume (cm3)
 A



 
 B




 C




 D



  
V = L x W x H
cm3 = (cm)(cm)(cm)

 Procedure B
Use a graduated cylinder to measure the volume of an irregular shaped solid. 
1. Fill the graduated cylinder to 50 mL and record this into your notebook.  This is your initial volume.
2. Carefully drop the object in on an angle.  The object will displace water (push water up to make way for the object) which will rise to make a new volume.
3. Subtract your initial volume from the new water level.
 New Volume --------------à                _____mL
 Initial Volume ------------à                 _____mL
Volume of irregularly shaped object: _____mL






Now, check to see if you’ve measured correctly using the Volume of a sphere equation:  



Volume of sphere using equation:_____cm3


Analysis
1) What is the maximum volume you can measure with this graduated cylinder?
2) What is the smallest volume you can measure with this graduated cylinder?
3)  Determine the value of the minor grids on the cylinder.  i.e. how many mL does each line equal?
4) If you had a large enough sized graduated cylinder, could you use it to measure the volume of your blocks?  What problems may you encounter when trying this?  
5) Define "displacement" in your own words.
6) What are the volumes of the following objects? (Don't for get units!)
a. silver cylinder = ______
b. ring = ______
c. fish = ______
d. rock = ______




 Conclusion


 What was your problem?
 Restate your hypothesis.  Was it right? wrong?  why or why not?
 What did you learn in this lab?
 What did you like about this lab?
 What were some challenges you had to deal with?
 What could you do next with this problem?  What other tests could you perform?
 Write down any other additional thoughts, observations, inferences, etc.




Complete the following worksheet in your lab workbooks:

Wednesday, December 12, 2012

Asteroids, Comets, and Meteors Online Exploration

https://www.brainpop.com/science/space/asteroids/
https://www.brainpop.com/science/space/comets/
https://www.brainpop.com/science/space/solarsystem/
http://discoverykids.com/games/asteroid-comet-or-meteor-quiz/
http://www.neok12.com/Comets.htm
http://www.astro.umass.edu/~arny/jquiz10.html
http://easyscienceforkids.com/all-about-comets-meteors-and-asteroids/
http://www.wartgames.com/themes/science/comets.html
http://www.amnh.org/explore/ology/astronomy

Friday, December 7, 2012


LAB #5 – Simple Machines Help Us

Problem: How do simple machines help us?

Hypothesis:

Materials: various simple and compound machines

Procedure:



Results:
Name of the object

Purpose of the object
What kind of simple machine/s is it?
Draw a picture of the object
1. Plastic drink top




2. chemistry tongs




3. cooking thermometer




4. scissors (2)




5. light bulb and clamp (3)




6. plastic car (2)




7. spray bottle (2)




8. staples




9. clip on clipboard




10. flashlight




11. tape and dispenser (2)




12. rolling pin




13. nails (on wall)




14. screw (in wall)




15. stairs




16. stapler




17. triple beam balance (3)




18. crazy coaster track




19. cabinet drawer track




20. wheel on push cart




21. blinds




22. hammer (2)




23. test tube holder




24.




25.




26.




27.




28.




29.




30.









  
Analysis:
1) How do simple machines make our lives easier?
               
2) Pick three of the objects from the lab and explain how it would be like without them?  How would you accomplish the tasks they help us with without them?

3) Go to your data table and label the fulcrum for each of your levers.
                
4) Find three simple machines at home and add them to your Results.

Conclusion


 What was your problem?
 Restate your hypothesis.  Was it right? wrong?  why or why not?
 What did you learn in this lab?
 What did you like about this lab?
 What were some challenges you had to deal with?
 What could you do next with this problem?  What other tests could you perform?
 Write down any other additional thoughts, observations, inferences, etc.