Wednesday, December 20, 2017

Density = mass/Volume HW



1. What is density?  Write a paragraph and draw a picture of your findings.

2. Watch the following video and jot down some thoughts, be creative :).






3.




4. a. True/False: Solid water (ice) is less dense than liquid water.
b. Describe: How do liquid molecules move?
c. What happens to the kinetic energy of the water molecules as the temperature falls from  25 °C  to  4 degrees Celsius?


From properties of matter to the states of matter:














Thursday, December 14, 2017

Holiday Science Articles and Experiments



Science in the news during the holiday season

***Due Friday, 12-15-17***   (602, 603 MUST DO; 621, 623 option 1)


1. How To Get Your Kids Into Science This Christmas

2. Counting Birds: Christmas Means Citizen Science For The Birds

3. Dec. 21: The Winter Solstice Explained

4. Musicians Attempt To Make The Happiest Christmas Song Of All Time Using Science

5.  Starbucks' Christmas Tree Frappuccino Is a Chemical Nightmare, Science Says

6. The Shortest Day: The Science of the Winter Solstice

7.   7 Scientific Truths About Christmas, Santa, And Reindeer

8. The science of Christmas: Santa Claus, his sleigh, and presents

9. The Science Behind Santa's Christmas Eve Journey

10. Watch: The Science Of Christmas


Investigate and Experiment the holiday season!
***Due Monday, 12-18-17***  (602, 603 MUST DO; 621, 623 option 2)


1.  Spangler Science: Tricks and experiments for the holidays

2.   TOP 10 MUST-TRY CHRISTMAS SCIENCE EXPERIMENTS FOR KIDS

3.  20 Christmas Science Activities

4.   BEST CHRISTMAS SCIENCE ACTIVITIES AND EXPERIMENTS FOR KIDS

5.   CHRISTMAS STEM IDEAS AND ACTIVITIES FOR ENGINEERING CHRISTMAS TREES

Wednesday, December 6, 2017

Simple Machines Slideshow

You are going to create a slides presentation showing your understanding of the various simple machines.
*Due Date: Monday 12/11/17*

  1. Title slide with picture of ALL the simple machines.
  2. Inclined plane: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.
  3. Lever: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.
  4. Wedge: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.
  5. Wheel and Axle: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.
  6. Screw: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.
  7. Pulley: Two pictures with a real world example and a sentence explaining the simple motion and how it makes work easier.

Friday, December 1, 2017

C3 Homework

1. C3S1 pp. 74-76, RC, BQ, Applying Math #1-2, SC#1


2. C3S2, self check #1; Find 3 examples of a machine making work easier.
3. Read p. 84, SC #4, “Physical Setting: Define”
4. p. 72 - Science Journal


5. C3S3 – Vocabulary, RC, BQ, p. 87 Physical Setting “Design”
C3S3-RC, BQ, PS 5.2g p. 87, SC #5


6. Find 2 examples of friction this weekend, sketch a picture, and explain their purpose.  Hint: subway stations, stairs, bathrooms

7. Science Article Machines


8. Science Article Thanksgiving

9. Science Article Simple Machines


10. Science Article Happy Holidays

11.
  • Visualizing Main Ideas p. 95
  • C3 Review
  • pp. 96-97 - # 4, 6-9, 11, 12, 14, 18, 20, 22, 25, 26

Monday, November 27, 2017

Simple Machines HW videos

1. a. Predict: Based on the title, Six Simple Machines, what are some images you are going to see on the video?
b. Watch the Six Simple Machines video.  Think about and give an example of each type of simple machine.


Sunday, November 12, 2017

Wednesday, November 1, 2017

C2 - HW

1.  Read C2S1 p. 42
2. C2S1; vocabulary, Physical Setting
p. 44, RC, BQ, pp. 42-44 only

3. Energy Bonus Project
4. Science Article #1 - Energy
5. KE/PE Visual Assessment
6.C2S3 pp. 55-57 – RC, BQ, vocabulary, Physical Setting p. 57,SC #1
7. Finish C2S3 pp. 58-63, RC, BQ, SC #2,4
8.  Finish C2S3 SC #1,2,4

9. C2 Visualizing Main Ideas and Chapter Review

 # 2, 3, 5, 6, 7, 8, 10-22, 24, 26, 27, 30 29, 31


Sunday, October 15, 2017

Lab # 2 – Crazy Coasters and the Exploration of Potential vs. Kinetic Energy

Problem
How does the starting height of a marble on a coaster track affect the speed it gathers to complete a successful loop?

Hypothesis   (Make a prediction)

I hypothesize that if... _________________________________________________________________________________


then... __________________________________________________________________________________________________

because... __________________________________________



Materials
Foam pipe insulation
Glass marble
Ruler
Tape
Triple beam balance

Additional Data

Loop diameter   = ___ cm 
Mass of marble = ___ grams

Results

Starting height (cm)
Successful loop  – 3 trials(Yes/No)
Additional observations about the marble's "energy"  
25.0 cm
1.
2.
3. 

50.0 cm
1.
2.
3.

75.0 cm
1.
2.
3.
100.0 cm
1.
2.
3.

Tuesday, October 10, 2017

1. Go to ---> https://jr.brainpop.com/science/beascientist/scientificmethod/
login: password:
a. Put on the Closed Captions (CC) and play the movie.
b. Take the Easy Quiz and record your score.
c. Word Play, Play with words! Choose a word to explore. Draw or write about it. 

2. Go to ---> https://www.flocabulary.com/unit/scientific-method/
Join a Class --->
Watch the video on "slowest" speed.
Click on Vocab.

Friday, October 6, 2017

Scientific Theory vs Scientific Law

What is the difference between a scientific theory and a scientific law?   Einstein and Newton will help you understand!


When: Friday, 10/6/17
Where: Science Notebook

Wednesday, September 27, 2017

Lab #1: The Sphere Rolling Down the Ramp Into the Plastic Truncated Cone

Lab #1: The Sphere Rolling Down the Ramp Into the Plastic Truncated Cone


Problem:
How does the mass of a sphere affect how far it can move a cup?


Hypothesis:
I hypothesize that if _________________________________________________________________________________


then, __________________________________________________________________________________________________

because _______________________________________________________________________________________________





Materials:
  • ramp placemat
  • plastic cup with “door” cut out and 5.0g mass on top
  • grooved ruler
  • A variety of spheres (golf, ping pong, marble, high bounce)
  • wooden block
  • masking tape
  • triple beam balance


Procedure: (Written in numbered steps)
  1. Set up ruler so that the “0.0cm” end of it lines up with the line on the placemat that says “End of Ramp/Ruler.”  Use tape to keep it in place.
  2. Place the block at the opposite end of the ruler.  Line the edge of the block with the “30.0cm” mark and secure it with tape.  
  3. Place the plastic container with the 5g mass on top in the starting circle so that the door is open to the end of the ramp.  
  4. Release the golf ball from the 20.0cm mark on the ruler.
  5. Record how far the cup is moved in the “20.0cm release point” data table.  
  6. Repeat steps 4 and 5 three times with each ball recording the data each time.  
  7. Find the average of the three trials and record it in the corresponding data table.  


Variables:
Independent

Dependent

Constants



Data: Units of mass = grams (g)
Mass of the cup: ____________________
Mass of the golf ball : ___________________

Mass of the ping pong ball: __________________


Results

Data Table 1: Distance the ball pushes the plastic cup when dropped from 20.0cm
BALL
Trial 1
Trial 2
Trial 3
Average
Golf




Ping Pong
















Data Table 2: Distance the ball pushes the plastic cup when dropped from 30.0cm

BALL
Trial 1
Trial 2
Trial 3
Average
Golf





















Data Table 3: Distance the ball pushes the plastic cup when dropped from 10.0cm

BALL
Trial 1
Trial 2
Trial 3
Average
Golf




Ping pong

















Data Table showing the distance a golf ball moves a plastic cup at three different starting heights


Golf Ball starting heights
Distance the cup moves 1
Distance the cup moves 2
Distance the cup moves 3
Average
10 cm




           20 cm




            30 cm











Analysis:

1. Which ball made the cup travel the farthest at 20.0cm release point?  What property about the ball causes the difference?





2. Which ball made the cup travel the least at 20.0cm release point?  Why do you think it performed this way?





3. Did those balls perform in a similar manner at the 10.0cm and 30.0cm release points? Why or why not?




4. Predict what you think would happen if we performed the same experiment with a tennis ball, and explain why you would predict this.



5. Construct a bar graph showing your results.  Use the following information to assist you with the graph: x-axis - various spheres, y-axis - distance the cup moved (cm), title - bar graph comparing how two different masses affect the distance a cup moves after they have collided.

Conclusion
 What was your problem?
 Restate your hypothesis.  Was it right? wrong?   How did your data support or not support your hypothesis? YOU MUST REFER TO YOUR DATA (AVERAGE DISTANCES) TO GET CREDIT FOR THIS QUESTION.

Briefly describe your procedure.
 What did you learn in this lab?
 What did you like about this lab?
 What were some challenges you had to deal with?
What might be some sources of error in this lab?
 What could you do next with this problem?  What other tests could you perform?
 Write down any other additional thoughts, observations, inferences, etc.