Thursday, March 26, 2020

What Science video is Mr. Considine watching today?

I like watching Science videos, documentaries, movies, and all sorts of clips.   Each day I will upload or link a video I am watching at the time.  I will keep them related to the content we are learning in class in someway.  The questions that follow should be answered in one of three places; 1) If you have that notebook I gave you as a "gift" use that, 2) Make a separate section at the end of your Lab Notebook, like your Science Notebook glossary, 3) Make a separate section in your Science Notebook reserved for this. 




H.         04.03.20
The original source of energy the for planet.....

An old video of Convection Currents



03.30.20

G.   I enjoyed watching this show with my kids years ago; while we sit at home for these next few weeks, I think we are ready for a re-watch.  





03.27.20
F.  It's Friday night. The science video for you all is all about transferring the chemical energy in food to mechanical energy in your bodies.  It's important to stay physically fit and active during these strange days.  


Here is a video I'm converting chemical energy into mechanical energy to at the moment. :)

   

                                03/26/20
E.        Bioluminescent Mushrooms!
Bio meaning life, luminescence meaning chemical energy converting to radiant energy.
Observation:  I see fungi glowing green.
Inference: I infer they are are doing this for a very specific reason, as most fungi do not radiate luminescence.
Additional Questions:  Why do they they do this?  Why don't all fungi do this?  Why doesn't the mushroom on my pizza radiate green light?  Why is the bioluminescence green?  Why not orange, purple? 

D. Satisfying Slow Mo Fruit Ninja - The Slow Mo Guys 

Prediction: I predict that someone is going to be hit in the face with a piece of fruit. 
Observation: I saw someone get hit in the face with a fruit.  
Inference:  I bet that hurt. 
Additional Thoughts: I remember reading once that tomatoes are both fruits and vegetables.  I wonder how much they spent on all of that produce.  I wonder which of my students would enjoy throwing fruits at me...???


C.   What Happened Before History? Human Origins




Prediction: I bet life was colder, hotter, more dangerous and much more smelly/malodorous/foul smelling/stinky!

Observation: For most of human history, life was CHALLENGING.  

Inference: Based on human history, we have a lot to be thankful for today.  

BNatural Climate Cycles | Polar Extremes

Natural Climate Cycles | Polar Extremes 

Q/A

1. What is the difference between weather and climate?
2. What makes the seasons here on Earth?
3. When the sun is tilted towards the northern hemisphere, we experience ______.
4.  During he southern hemisphere summer, we in the north experience ______. 
5. Weather/Climate changes on a daily basis, whereas Weather/Climate is influenced by the movement of the earth around the sun and is studies on a long term basis. 




A.

Taking the Heat

https://www.pbs.org/wgbh/nova/video/taking-the-heat/

In his pursuit of strong materials, David Pogue, technology columnist and host of NOVA's "Making Stuff," wants to know how firefighters dress to boldly enter blazing buildings. In this video, Pogue visits with chemist Rich Young of DuPont to see how a material called Nomex withstands heat and flame.

Q/A
1. What is the Independent Variable?  Dependent Variable?  3 Constants?
2. Why would the outcome of this experiment benefit firefighters?
3. Would this Nomex make a good conductor of heat or insulator of heat?  Explain your response.  
4. Would this sort of heat transfer be primarily conduction, convection or radiation?
HINT: You have to watch the 
Is fire a solid, a liquid, or a gas? video first, from GC.








Friday, March 13, 2020

Lab #6 – Heating Up and Cooling Down (class of '22)

Lab #6 – Heating Up and Cooling Down
                      Copy ↑ into your Lab/Science Notebooks
Do you remember how long it took for a cup of hot chocolate to cool before you could take a sip?  Why do hot drinks come in styrofoam or special paper cups?  Why do teachers drink hot drinks out of porcelain mugs?  Why not glass, metal, or plastic cups?   ←↑just read that↗           ↗



Problem       copy this as always
There is a beaker of ice water in front of you; what will happen to it over time?

There is a beaker of room temperature water in front of you; what will happen to it over time?

There is a beaker of boiling water in front of you; what will happen to it over time?



Hypothesis  copy this as always, make your own hypotheses; use the prompts below as guidance      ↙↘

I predict that if I leave a beaker of ice water out then this will happen.... because....

I predict that If I leave a beaker of room temperature water out then this will happen....   because....

I predict that If I leave a beaker of boiling water out then this will happen....   because....

      
  Materials   copy this as always
3 beakers (I used pint glasses)
3 thermometers (I used one thermometer)
Online Stopwatch 
Ice
Hot plate  (I used a hot water pot)
Measuring cup, 250 mL

Procedure  READ this as always. Edit, I've changed it a bit;I used pint glasses, not beakers, and the volumes I used were 250mL, not 100mL
  1. Use the data table to record the temperature of water in three beakers every minute from 0 to 10 min.
  2. Fill one beaker with 100 mL of water. Place the beaker on a hot plate and bring the water to a boil. Carefully remove the hot beaker from the hot plate.
  3. Record the water temperature in your data table at minute 0, and then every minute for 10 min.
  4. Repeat step 3 starting with water at room temperature and ice water.
  Results copy these 3 data tables as always, use a ruler!

Ice Water
Time (min.)
Temperature ('F)
Temperature ('C)
0
 32’F
0’C
1


2


3


4


5


6


7


8


9


10


   
Room Temperature water
Time (min.)
Temperature ('F)
Temperature ('C)
0


1


2


3


4


5


6


7


8


9


10


  
Boiling Water
Time (min.)
Temperature ('F)
Temperature ('C)
0
212’F
100’C
1


2


3


4


5


6


7


8


9


10



Analysis   Make 4 line graphs: a, b, c, d

1.   Use your data tables to construct four line graphs.
a.   Ice Water: x-axis - Time (min),  y-axis - Temperature (oF)
b. Room Temperature Water: x-axis - Time (min),  y-axis - Temperature (oF)
c. Boiling Water: x-axis - Time (min),  y-axis - Temperature (oF)
d.    Construct a fourth line graph using the data from all three data tables; there should be three lines: ice water (colored blue), room temperature, and boiling water (colored red).
                      This is an example of line graph a. ↓↓↓↓

Please answer ALL of these Analysis questions in complete sentences.
2.    What happened to the temperature of the boiling water over time?  Explain your answer.
3.    What happened to the temperature of the ice water over time?  Explain your answer.
4.    What happened to the temperature of the room temperature water over time?  Explain your answer.
5.    Do you think there will be a temperature at which they would eventually meet?  If so, where do you think it will be?  If not, why not?
6. Think Deeper: Why is the title of this lab called "Heating Up and Cooling Down" ?
7. Go Beyond: Illustrate the three beakers, label them, draw "heat arrows" showing the flow of thermal energy from the higher temperature substance to the lower temperature substance.  
8. Using a temperature conversion tool, convert the fahrenheit to celsius in your data tables.  eg temperature converter


Edit: I am aware that you all did not complete this lab on your own.  Please watch the videos, and complete the Conclusion based on the videos, the graphs, and theAnalysis responses.

Conclusion

 What was your problem?
 Restate your hypothesis.  Was it right? wrong?  why or why not?
Did you change your hypothesis in the middle of your investigation?  If so, why?
How is this investigation connected to 'real life'?  
 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.

And yes, follow the prompts to complete your Conclusion↖↗

Monday, March 9, 2020

Science Article due 03.13.20: Coronavirus

Science Article due 03.13.20: Coronavirus

1. Opinion: Fear about the coronavirus is normal, but don’t let it control you
https://newsela.com/read/ela-opinion-coronavirus-fear/id/2001006355/?collection_id=2000000156

2. Your most urgent questions about the new coronavirus
https://newsela.com/read/lib-coronavirus-questions/id/2001005032/

3. A bug is making you miserable — is it alive?
https://newsela.com/read/flu-virus-bug/id/47714/


4. Misguided virus fears said to be hitting Asian American businesses
https://newsela.com/read/coronavirus-asian-businesses/id/2001005823/


5. Understanding a virus and what steps to take to get over it
https://newsela.com/read/cold-flu-public-surfaces/id/48402/

6. Explainer: What is a virus?
https://newsela.com/read/lib-convo-what-is-a-virus/id/29089/?collection_id=2000000156


7. Pandemic Panic? These 5 Tips Can Help You Regain Your Calm

https://www.npr.org/sections/health-shots/2020/03/03/811656226/pandemic-panic-these-5-tips-can-help-you-regain-your-calm

8. Answers to your questions on the new coronavirus
https://www.sciencenewsforstudents.org/article/answers-to-your-questions-on-the-new-coronavirus


9. Top 10 tips to stay safe during an epidemic

https://www.sciencenewsforstudents.org/article/top-10-tips-to-stay-safe-during-an-epidemic

10. Explainer: What is a coronavirus?
https://www.sciencenewsforstudents.org/article/explainer-what-is-a-coronavirus

11. World Leaders Take Precautionary Measures To Curb The Spread Of The New Coronavirus

Wednesday, March 4, 2020

C5 Videos, GIFs, Tips: Heat, Thermal Energy and Temperature

1. Molecular motion and phase changes
                                               2. Heat and Temperature