Department of Mathematics and Science
Jumping Ping Pong BallsAdapted from
FAST 2013 Conference: Brevard Make and Take
Mary Tweedy, Curriculum Support Specialist Keisha Kidd, Curriculum Support Specialist Millard Lightburn, Ph.D. District Science
Supervisor
Department of Mathematics and Science
Science Benchmark Focus• SC.5.N.1.1 Define a problem, use appropriate reference materials to support
scientific understanding, plan and carry out scientific investigations of various types such as: systematic observations; experiments requiring the identification of variables; collecting and organizing data; interpreting data in charts, tables, and graphics; analyze information; make predictions; and defend conclusions.
• SC.5.N.2.1 Recognize and explain that science is grounded in empirical observations that are testable; explanation must always be linked with evidence
• SC.5.N.2.2 Recognize and explain that when scientific investigations are carried out, the evidence produced by those investigations should be replicable by others.
• SC.5.E.7.3 Recognize how air temperature, barometric pressure, humidity, wind speed and direction, and precipitation determine the weather in a particular place and time.
• SC.5.P.13.1 Identify familiar forces that cause objects to move, such as pushes or pulls, including gravity acting on falling objects.
Department of Mathematics and Science
Common Core ELA and Math • LACC.5.SL.1.1 Engage effectively in a range of collaborative discussions (one-
on-one, in groups, and teacher-led) with diverse partners on grade 5 topics and texts, building on others’ ideas and expressing their own clearly.
• LACC.5.RI.1.3 Explain the relationship or interactions between two or more individuals, events, ideas, or concepts in a historical, scientific, or technical text based on specific information in the text.
• LACC.5.RI.2.4 Determine the meaning of general academic and domain-specific words and phrases in a text relevant to a grade 5 topic or subject area.
• MACC.4.MD.1.1 Know relative sizes of measurement units within one system of units including km, m, cm; kg, g; lb., oz.; l, ml; hr., min, sec. Within a single system of measurement, express measurements in a larger unit in terms of a smaller unit. Record measurement equivalents in a two column table.
Department of Mathematics and Science
Designing Effective Inquiry: Jumping Ping Pong Balls
What will happen if you blow air onto the ball in the cup? Think about this: Does it matter how you blow air(air pressure)on the ball in the cup?
FAST 2013 Conference: Brevard Make and Take
Department of Mathematics and Science
What will happen if you blow air onto the ball in the cup?Choose an answer and write to explain how you came up with this reasoning.
A. The ball will spin in the cup.B. The ball will bounce out of the cup.C. The ball will bounce up and down in the
cup.D. The ball will move slightly, remaining in the cup.
Department of Mathematics and Science
Go to your chosen corner: A, B, C, or D.• Find a partner to talk with.• Then discuss the reason(s) for your choice.• Share with the rest of your group.• Choose a member of your group be the
reporter and share out with all groups.• Listen to all sharing out from each answer
choice. Take notes. • Has your thinking changed? Do you want to change answer choices?
Four Corners
Department of Mathematics and Science
What will happen if you blow air onto the ball in the cup?
Materials: ping pong ball per group; 2 – 5 oz. plastic cups Procedures:1. Place the two plastic cups 8 centimeters apart.2. Place one ping pong ball into one of the plastic cups.3. Blow air over the ping pong ball.4. Record observations after each blowing of air,
including how much and force used.5. Observe the ball. Record 3 – 4 observations.6. Repeat two more times.
Department of Mathematics and Science
What happened when you blew air onto the ball in the cup?Which answer best fits what you observed?Explain your reasoning.
A. The ball spun in the cup.B. The ball bounced out of the cup.C. The ball bounced up and down in the cup.D. The ball moved slightly, remaining in the cup.
What could have affected your results?
Department of Mathematics and Science
Jumping Ping Pong Balls- the Science
As you blow air over the cup, pressure builds up in the bottom of the cup in-front of the ping-pong ball and forces the ball out of the cup. The area where you are blowing creates low pressure outside of the cup and forces the ball into a path towards the other cup. The ping-pong ball travels along the path of the low pressure flow.
Department of Mathematics and Science
What new question could be investigated?
Materials available: ping pong ball per participantplastic cups: 5 oz. 9 oz. or 12 oz. rulermeter sticktape (to hold cups in place)blue trayhair dryer
Department of Mathematics and Science
Jumping Ping Pong BallNew Questions
1. Does changing the size of the cup with the ball affect a change in the movement of the ping-pong ball?
2. Does changing the amount of air affect a change in the movement of the ping-pong ball?
3. Does changing the force of air affect a change in the movement of the ping-pong ball?
4. Does changing the distance between the cup with the ball and the force of air affect a change in the movement of the ping-pong ball?
5. Does changing the temperature of the air affect a change in the movement of the ball?
Department of Mathematics and Science
Jumping Ping-Pong Ball InquiryProblem Statement:Hypothesis:Identify the Variables:
Test (independent/manipulated) Variable: Outcome (dependent/responding) Variable:Controlled (Constants) Variables:
Plan investigation: Materials: Procedures:
Do the Experiment: Collect and Record DataConclusion:Application (How does this relate to weather?):
Department of Mathematics and Science
How does air pressure relate to weather?
What is Air Pressure?• Weather - http://app.discoveryeducation.com/player/view/assetGuid/6c29abb5-481c-4114-9a4e-6c39ef9f0eb2• http://app.discoveryeducation.com/player/view/assetGuid/e8a0ff35-64df-4562-99a7-8dd0564d68b5
How do Heat, Wind and Pressure Work Together?
Heat, wind, and Pressure A Review
How do different air pressures affect weather systems? Give some examples.
Department of Mathematics and Science
Assessment1. Write 4 observational statements using evidence from
the experiment. 2. Then make evidence-based inferences using these
observations including links to weather.3. Draw inferences as to the relationships with weather
and air pressure with how the differing positions of the cups were affected by how much wind and pressure were present.
4. Create 2 different models explaining the variables and possible outcomes based upon your prior experimentation.
5. Draw a weather system with captions indicating what is happening and why.