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Madi, Charlie, Caitlin, and Ashley About Us We all like regular cheese pizza, Spongebob, jeans, GLOZELL, and of course the PHILLIES! We all do not like the "Biebs", Ed Ed and Eddy, and of course the Yankees.

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**PAPER AIRPLANE EXPERMENT** Helpful Webites []

We found a whole bunch of different types of paper airplanes that you can make.
[] We found how to make a plane that can fly very far.

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Question: Will the shape of the paper airplane affect how far it flys?

Hypothesis: The narrower the airplane is, the farther it will go.

Independent Variable: The shape of the plane.

Dependent Variable: The distance the plane flys.

Constants: Same type of paper, the same person must throw the plane, and they have to try an use the same force each time.

<span style="color: #8c04dc; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Procedure Diagram:

<span style="color: #000000; display: block; font-family: verdana,geneva,sans-serif; font-size: 120%; text-align: left;"> <span style="color: #8c04dc; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Summary: We created two different styles of airplanes. One with a slim frame ( plane number 1) and another with a wider and shorter frame (plane number 2). We flew each plane twice to measure how the frame of the plane affected the distance it flew. Plane 2 flew farther, so we can conclude that the wider the frame, the farther the plane will fly.

<span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Number || <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Trial 1 <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Length || <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Trial 2 <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Length || <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Average ||
 * <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">How Far Our Paper Airplanes Flew **
 * <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Plane
 * <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif;">1 || <span style="font-family: Verdana,Geneva,sans-serif;">740.1 cm || <span style="font-family: Verdana,Geneva,sans-serif;">847 cm || <span style="font-family: Verdana,Geneva,sans-serif;">793.55 ||
 * <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif;">2 || <span style="font-family: Verdana,Geneva,sans-serif;">1200 cm || <span style="font-family: Verdana,Geneva,sans-serif;">2017 cm || <span style="font-family: Verdana,Geneva,sans-serif;">1608.5 ||

<span style="color: #ff4800; display: block; font-family: verdana,geneva,sans-serif; font-size: 150%; text-align: center;">**MASS AND VOLUME LAB**

<span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Question: Does the mass of an object affect its volume? <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Hypothesis: The mass of an object does not affect its volume. <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Independent Variable: mass (g) <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Dependent Variable: volume (cubic cm)

<span style="color: #ff0067; display: block; font-family: verdana,geneva,sans-serif; font-size: 120%; text-align: left;">

<span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Summary: The mass of an object does not affect its volume. <span style="color: #ff4800; display: block; font-family: verdana,geneva,sans-serif; font-size: 150%; text-align: center;">**OUR MASS AND VOLUME LAB** <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Question: Does the mass of the clay affect its volume? <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Hypothesis: The mass will not affect its volume. <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Independent Variable: mass (g) <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Dependent Variable: volume (cubic cm) <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Constants: The material (clay) and the amount of water. <span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Procedure Diagram:



<span style="color: #8c04dc; display: block; font-family: verdana,geneva,sans-serif; font-size: 110%; text-align: left;">Summary: The mass of the clay affects the volume of the clay. If the mass increases, so does the volume. The average density of the clay was approximately 1.0880519481 g/cm 3.

<span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">(cubic cm) ||
 * <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Mass (g) || <span style="color: #ff0067; font-family: Verdana,Geneva,sans-serif; font-size: 120%;">Volume
 * <span style="font-family: Verdana,Geneva,sans-serif;">6.9 || <span style="font-family: Verdana,Geneva,sans-serif;">3 ||
 * <span style="font-family: Verdana,Geneva,sans-serif;">12 || <span style="font-family: Verdana,Geneva,sans-serif;">7 ||
 * <span style="font-family: Verdana,Geneva,sans-serif;">17.9 || 11 ||





Our own clay lab [] This website helped us create a boat that floats.

Question: Does the shape of the clay affect its bouyancy? Hypothesis: If shape is round and it is hallowed out, it will float Independent variable: Shape Dependent variable: Bouyancy Constant: Material being used is clay Procedure Diagram:

Clay Bouyancy Lab Video

Summary: We found out that the dome shaped clay object floated and that was because it didn't have any holes to let water through and it had high sides to keep out the water. The other two boats sunk because it didn't have high walls or dome shapes.


 * Clay Object || Shape of Clay || Bouyancy ||
 * 1 || bowl || floats ||
 * 2 || hot dog || sinks ||
 * 3 || flat || sinks ||

**<span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif;">Density of a Marble **
 * <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Mass of Cup (g) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">1.7 || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Volume of Water (mL) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">50 ||
 * <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Mass of Cup and 5 Marbles (g) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">26.9 || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Volume of Water and 5 Marbles (mL) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">60 ||
 * <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Mass of 5 Marbles Alone (g) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">25.2 || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Volume of 5 Marbles Alone (mL) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">10 ||
 * <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Average Mass of Marble (g) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">5.04 || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Average Volume of a Marble (mL) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">2 ||
 * <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Density of 5 marbles (g/cubic cm) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">2.52 || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">Density of a Marble (g/cubic cm) || <span style="color: #ff4800; font-family: Verdana,Geneva,sans-serif; font-size: 110%;">2.52 ||

Summary: The density of a marble is 2.52g. Since density is a characteristic roperty, the density of five marbes is also 2.52g. ICE CUBE LAB Question: How will the mass of the ice compare to it's mass after it has melted? Hypothesis: The mass will decrease once the ice has melted. Independent Variable: State Dependent Variable: Mass Constants: the same cup/bag (grams per cubic cm) ||
 * Object || Mass(grams) || Volume(cubic cm) || Density
 * cup and marbles || 26.9 || 11 || 2.52 ||
 * cup || 1.7 || no need || no need ||
 * 1 marble || 2 || 2 || 2.52 ||

Summary: The mass of the ice when it melted into water changed by 0.1 grams making the mass slightly different. = = =** Chemical Change Experiment **=

Constants: Container

 * Object || Mass(grams) ||
 * Bag || 2.85 ||
 * Ice cube || 18.4 ||
 * Water and Bag || 15.55 ||
 * Water || 15.45 ||