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Akron Global Polymer Academy Lesson Plans

Float Your Boat

Grades: 5-8
Author: Joyce Brumberger
Source: "Sink and Spill", Prentice Hall Physical Science Explorer. Prentice Hall, Inc., New Jersey.2001. pp.360-361.


Abstract

Through design and implementation of their own experiments about Archimedes' Principle, students will learn the effects of the force of buoyancy, and the role density plays in the sinking and float of objects.


Objectives

What should students know as a result of this lesson?

What should the students be able to do as a result of this lesson?


Materials

Engagement:

Exploration:

For Each Group:

Elaboration:


Procedures

Engagement

  1. Show students a can of diet Coke and a can of regular Coke. Ask them the volume of product in each can. Both are 12 ounces
  2. Place the diet Coke in a large container half filled with water. (A small fish tank works very well for all to see easily.) The can will float.
  3. Place the regular Coke in the container of water. The can will sink.
  4. Ask students to draw their observations and then offer explanations as to why the cans behaved the way they did.

Assessment: Assessment is on going as students record observations and ideas as well as respond orally during the Engagement phase.

Exploration

Divide the students into groups of an appropriate size so that everyone can comfortably contribute.

PART I - Calibrating the volume of a film canister

PART 2 - Determining the mass of 1 mL of water

PART 3 - Observing displacement

PART 4 - Measuring volume displacement and weight

Assessment: The professional development provider can assess students understanding through oral explanations and written observations and drawings.

Explanation

Students should have found that the mass was 1.0 g. There is likely to be some experimental error, but answers should be close to 1.0 g. This is important later when the mass of objects are determined based on the volume of water they displaced.

Mass is the amount of matter a substance contains and is measured using a balance scale. Weight is a measure of the force of gravity and is measured using a spring scale. If the force of gravity changes, weight changes, but the mass remains constant. In this exercise, the weight of an object was calculated by multiplying the mass of the object by 0.01. The unit for weight is Newtons.

The level of the water rose. This is a visual example of water displacement. At this point the discussion of the term displacement is appropriate. Displacement means that a substance was in one place but has moved to another - "dis - placed". All matter takes up space; consequently two things can't be in the same place at the same time. When an object is placed in water, it causes the water to move out of the way. The measure of the change in water from its original point to its new position is referred to as "displacement".

The film canister initially floats high in the water, but as pennies are added, it floats lower. It is important here to recognize that the volume of the canister did not change, but the mass did.

The weight of the water displaced is equal to the buoyant force. The buoyant force is the difference in the pressure on top of the object, which is pushing it down, compared to the bottom of the object where the pressure from the water is pushing it up. When the finger was submerged in the water, it was visible to see that the water level went up, not down. As the weight of the canister increases, more of the volume of the container becomes submerged and more water is displaced. The markings on the container help the students to better estimate the volume of the canister submerged though there is still inherent error in the accuracy of the markings and the ability to read them. When the weight of an object is greater than the weight of the displaced water, the object sinks.

Density is the relationship of mass to volume. D = m/v

It should be noted that the density of the canister was greater than the density of water. This is also the reason the canister sank.

The canister would float, as long as the calculated density was less than 2.0 g/mL

Assessment: students' responses to key concepts.

Elaboration

  1. Show pictures of various types of boats - sailboats, barges, fishing boats, recreational boats, etc. and ask students to discuss the similarities and differences of the boats.
  2. Tell them that a block of steel sinks, yet ships made of steel float.
  3. Tell students that they are to create a "ship" using modeling clay so that it is capable of carrying the greatest amount of cargo (pennies) without sinking.
  4. Divide students into groups of appropriate size so that every member can contribute.
  5. Tell each group that you will be providing them with a specified mass of modeling clay from which they will design a boat hull for carrying a maximum load. Allow students to brainstorm together to develop two different hulls for testing.
  6. Before testing, tell students to provide explanations for the choices of their hulls and to hypothesize which of the two designs will hold the greatest cargo. Accept all reasonable explanations. Tell them to illustrate their hull designs.
  7. Instruct students to create a data table to record testing results and then allow them to test their crafts using the plastic container filled with water and pennies for the cargo.
  8. Ask groups to come together and report their findings.

Prerequisites

Minimal math skills � multiplication and division

Use of a calculator


Best Teaching Practices


Alignment with Standards

NGSS Standards:

Common Core Standards:

National Standards:

Ohio Standards:


Content Knowledge

It is a common experience that an object in water appears lighter than an object in air. In air, objects are affected by the force of gravity, but in water the object is affected by two forces: the force of gravity pulling it down and the buoyant force of water that pushes it upward. This upward force is a result of the difference in pressure exuded by the surrounding water between the top of the object and the bottom of the object. If the force is greater at the bottom, the object will float. If the force is greater at the top, the object will sink. Archimedes' Principle states that the volume of water displaced by an object is equal to the volume of the object submerged in the water. Different materials displace different amounts of water, which is why Archimedes was able to prove that the gold crown was not made of pure gold. Shapes of objects can influence the ability of an object to displace water. Boats are designed for various purposes, but displacement of water is critical to their ability to stay afloat. The mass of steel used to build a cruise ship would sink if it where a large block. By creating a shape that will allow for a large displacement of water to support the mass, a steel ship can float. (All ships must also have a sufficient amount of hollow area in the submerged portion of the structure for air. Remember, density is the relationship of mass to volume!)

References include:


Safety

N/A


Applications

Floating and sinking are common experiences among children and adults, yet the concept of why an object floats or sinks is often misunderstood. Much of this results from an incorrect use or a lack of vocabulary. There is power in words and proper language helps communication. Through guided exploration and development of vocabulary, individuals can build a knowledge base. With this knowledge base, they can cooperatively work and effectively communicate with one another to develop solutions to new, related problems.


Assessment

Ongoing throughout learning cycle.


Other Considerations

Grouping Suggestions: Try to insure that all students have participated and expressed their ideas either verbally or through written comments. When working in pairs or groups try to make the groups as heterogeneous as possible being sensitive to specific needs of individuals.

Pacing/Suggested Time: Engagement - 5 minutes; Exploration - 40 minute session; Elaboration - 30 minute session; Explanation - 40 minute session


Printable PDF Worksheets

Data Table

Story of Archimedes' Discovery