Power Station

Explorers team up to fix a “broken” fuel cell aboard the ship.  One Explorer remains at the control console to review the troubleshooting procedures while another Explorer moves to the back of the vessel to work on the device itself. They communicate by phone as the Explorer at the control console reads the instructions to the Explorer at the fuel cell to determine the cause of the failure, hopefully repair it before the space ship is destroyed!

Activity detail: Both explorers start out at the control console, and press the “forward button” below the viewing monitor to “test” the ship’s electrical systems. Once the power failure has been located the team splits, with one Explorer at the control console, the other at the “aft” fuel cell. By pressing the “Next” button and following the on-screen directions, the team can determine where the failure is and take actions to correct it. Explorers communicate by open phone line between the 2 stations using wired handsets.

This activity is an exercise in communication, teamwork and following directions. 

Arkansas Education Framework Correlations: 

SCIENCE:  STRAND 1: NATURE OF SCIENCE
STANDARD 1: CHARACTERISTICS AND PROCESSES OF SCIENCE
NS. 1.6.1. Verify accuracy of observations
NS. 1.6.5. Communicate results and conclusions from scientific inquiry

MATH: STRAND: MAEASURMENT
M.13.6.1. Solve real world problems involving one elapsed time, counting forward and backward.

LANGUAGE: STRAND: ORAL AND VISUAL COMMUNICATION
STANDARD 1: SPEAKING
OV. 1.6.3. Use appropriate oral communication for various purposes and audiences.
OV. 1.6.5. Use correct pronunciation and inflection to communicate ideas and information.
STRAND: ORAL AND VISIUAL COMMUNICATION
STANCARD 2: LISTENING
OV. 2.6.1. Demonstrate effective listening skills by exhibiting appropriate body language.
OV. 2.6.3. Listen attentively for main ideas and details.
OV. 2.6.4. Demonstrate attentive listening skills to respond to speakers message.

Digital Design

Explorers design their own descent vehicle on a computer aided design (CAD) station, trying to keep their design within required parameters of surface area, volume and mass.  The vehicles are 3D shapes produced by a surface of revolution around a fixed, straight line axis.  The resulting shapes can be investigated and examined in any orientation. 

Activity detail: The computer screen displays an amorphous shape, which the Explorers are to modify to meet specific parameters.  Easy, medium and hard buttons allow the Explorers to choose a pre-set vehicle template.  A Bezier line is formed through several node points, each of which can be repositioned on the screen by the explorer through click-dragging.  The shape of the line is infinitely variable using these node points.  A solid, fixed “axis” line sits to one side of the Bezier line, which is the axis of revolution.

Above the working area of the display are 3 parameters – surface area, volume and mass – calculated from the 3D Bezier shape and updated in real time.  Explorers must design a craft that meets proper descent vehicle requirements for flight.  If any measurement is outside the pre-set values, a message appears in red indicating that the parameter is too large or too small.

Four material “texture” buttons are available for Explorers to change the composition of the space craft.  Materials are titanium, plastic, brass and ceramic. The mass, surface area and volume values will change with each material.

Arkansas Education Framework Correlations:

SCIENCE: STRAND 3: PHYSICAL SCIENCE
STANDARD 6: MOTION AND FORCES
PS. 6.6.5. Understand why objects have weight.
PS. 6.6.6. Compare and contrast weight and mass.
PS. 6.6.7. Describe the effects of force:
·Move a stationary object
·Speed up, slow down or change the direction of motion
·Change the shape of objects
PS. 6.6.8. Conduct investigations to demonstrate change in direction caused by force.

Explorers build small paper descent vehicles and flight-test them in a laminar air stream.

Activity detail: Explorers use cones and other paper shapes provided to create a descent vehicle. They can test their vehicles by pressing a start button and releasing them into an air column produced through a collection of vertical “air straightening” sleeves. Cones can be modified with wings, scalloped edges, etc. to see how this changes the flight and hovering characteristics. A start button turns on the air, which remains on for 2 minutes.

Arkansas Education Framework correlations:

SCIENCE:  STRAND 3: PHYSICAL SCIENCE
STANDARD 6: MOTION AND FORCES
PS. 6.6.3. Conduct investigations of various forces using SI units (Newton
PS. 6.6.4. Recognize and give examples of different types of forces:
·gravitational forces
·magnetic forces
·friction
PS. 6.6.5. Understand why objects have weight
PS. 6.6.6. Compare and contrast weight and mass
PS. 6.6.7. Describe the effects of force: move a stationary object speed up, slow down or change the direction of motion change the shape of the objects
PS. 6.6.8. Conduct investigations to demonstrate change in direction caused by force.
PS. 6.6.9. Conduct investigations to calculate the change in speed caused by applying forces to an object.

MATH: STRAND: GEOMETRY
STANDARD 8: GEOMET4RIC PROPRITIES
G. 8.6.1.   Identify three-dimensional geometric figures using models (cones).
STANDARD 11: VISUALIZATION AND GEOMETRIC MODELS
G.11.6.1.  Identify two-dimensional patterns for three-dimensional solids, such as cones.
STRAND: MEASUREMENT:
STANDARD 12: PHYSICAL ATTRIBUTES
M.12.6.1. Identify and select appropriate units and tools form both systems to measure.
M.12.6.2. Make conversions within the same measurement system in real world problems.

Explorers maneuver a remote operating vehicle outside the space craft, using it to explore an interesting piece of terrain.

Activity detail: The operating console inside the vehicle features a video monitor and a single joystick that control the vehicle movement.   Explorers use the joystick to control the vehicle movements in real time, but with a 2 second delay to mimic the delay experienced when transmitting information across vast distances in space.

Explorers can drive the ROV wherever they wish, as long as they can effectively use the joystick in conjunction with the visually delayed feedback.  The goal of the activity is to explore the environment and gather facts about the terrain in this sector of Planet 'X'.

Arkansas Education Framework Correlations:

SCIENCE: STRAND 4: EARTH AND SPACE
STANDARD 8: EARTH SYSTEMS
ESS. 8.6.8. Compare and contrast the different land forms caused by Earth’s internal forces.
·mountains
·plateaus
·trenches
·islands

Explorers must design a building to erect on the new planet.  However, the planet is known to have strong quakes at frequent intervals.  Explorers are challenged to create a model of a building that will withstand these “planet” quakes.

Activity detail: A large bin containing a material similar to Planet ‘X’ soil is provided as the substrate for the activity.  Wooden blocks and brief examples of building designs are provided so Explorers can determine the type of structure that may stand through a “planet” quake.  When the structures are completed, Explorers push any of three QUAKE buttons – labeled weak, medium and strong.  The bin begins to shake for a 10 seconds in accordance with the strength button pressed.

Explorers are instructed to record the height of their structure before the “quake” occurs using a marker on panels at the rear of the exhibit.  Both Metric and English systems of measurement are used.  Comparison of styles, height and durability can be made in the classroom after the experience.

Arkansas Education Framework Correlations:

SCIENCE: STRAND 3: PHYSICAL SCIENCE
STANDARD 6: MOTION AND FORCES
PS.6.6.7. Describe the effects of force:
·move a stationary object
·speed up, slow down or change the direction of motion
·change the shape of the object
PS. 6.6.8. Conduct investigations to demonstrate change in direction caused by force.
PS.6.6.9.  Conduct investigations to calculate the change in speed caused
by applying forces to an object.
STRAND 4: EARTH AND SPACE SCIENCE;
STANDARD 8: EARTH SYSTEMS
ESS. 8.6.10. Identify the effects of earthquakes on Earth’s surface
ESS. 8.6.11. Investigate and map patterns of earthquake and volcanic activity.

MATH: STRAND: MEASUREMENT
STANDARD 12: PHYSICAL ATTRIBUTES
M.12.6.1.     Identify and select appropriate units and tools form both systems to measure.
STANDARD 13: SYSTEMS OF MEASUREMENT
M.13.6.1. Establish and apply formulas to find area and perimeter of rectangles.

Explorers receive encrypted messages from headquarters which they must decode and then program into the vessel’s computer, the Oracle.  The act of decoding involves the use of two cypher wheels, while the act of programming the oracle allows explorers to inform the ship’s crew of important news about the mission. For smaller groups, these stations are combined into one.

Activity detail: Explorers split into 2 adjacent stations, one at the control console for the oracle, the other at a monitor near the large cypher wheels.  (For larger groups, this activity will be split into two activities.)  A monitor to the left of the exhibit contains a code for a secret word.  The smaller cypher wheel at the top of the exhibit is used to determine the secret word.  The same monitor gives the Explorers the “key” for the secret message.  The larger cypher wheel at the bottom of the exhibit is used to decode the message.  Explorers record the message on their clipboards and quickly move to enter the message using the Oracle vocabulary buttons to the right.  When the “play” button is pressed, the Oracle announces the secret message to the crew.

The vocabulary buttons are color-coded according to parts of speech.  If time allows, Explorers can create their own messages using their knowledge of sentence construction.

Arkansas Education Framework Correlations:

SCIENCE: STRAND 1: NATURE OF SCIENCE
STANDARD 1: CHARACTERISTICS AND PROCESSES OF SCIENCE
NS.1.6.1. Verify accuracy of observations
STRAND: ORAL AND VISUAL COMMUNICATION
STANDARD 2: LISTENING
OV. 2.6.3. Listen attentively for main ideas and detail

Explorers use an array of mirrors and beam splitters mounted on a vertical panel to manipulate a strong laser beam across a topographic “map” to see how many of 4 sensors they can illuminate.  They will use this information to determine the optimal landing site for a computerized probe. 

Activity detail: Explorers push a button to activate the laser.  The laser times out after two minutes, and must be re-started by pushing the button again.  The button is labeled LASER ON and is internally illuminated when the laser is on.  A light water vapor fog system blows a film of fog across the surface of the map to aid in the visibility of the beams.

Explorers rotate any of 6 knobs located in a row across the bottom of the exhibit to pivot the 4 mirrors and 2 beam splitters placed within the panel.  When a laser beam hits a sensor, it is illuminated by a blue light and remains lit only while the beam spot remains in contact with the station. 

By manipulating the mirrors and beam splitters, it is possible, but difficult, to illuminate all 4 sensors with a single beam. 

Arkansas Education Framework correlations:

SCIENCE: STRAND 3: PHYSICAL SCIENCE
STANDARD 5: MATTER
PS.5.6.1. Identify common examples of chemical properties
·ability to produce light
STRAND 4: EARTH AND SPACE SYSTEMS
STANDARD 8:
EARTH SYSTEMS
ESS. 8.6.8. Compare and contrast the different land forms caused by Earth’s internal forces.(topographic map)

Explorers use a computer interface to look up and record meteorological and landmass data from an array of sensors that have been placed across the surface of Planet ‘X’.  

Activity detail: Explorers examine a large map graphic on the vertical surface of the exhibit.  It contains a grid of latitude and longitude spaces showing on the map are locations for 50 or so “sensors.”   The sensors are labeled with a bright dot and a one- or two-word text label such as Yawron, Ailartsua Lartnec, Saxet or Acitcrana. (These are Earth locations spelled backwards.) 

Under the map are two sets of digital numeric displays, the right-hand column displaying the weather data for the ship’s current position, and the left-hand column displaying the data from a chosen sensor.  The displays indicate temperature, humidity and altitude. 

On the horizontal surface of the exhibit is a” video monitor and a numeric keypad with the numbers 0-9. 

Explorers are given one or more sheets of paper with a different sensor location coordinates on each sheet. They are instructed to punch the coordinates into a numeric keypad. 

When the coordinates are entered, the series of “readings” are updated on the left column of the numeric display panel next to the map and the Explorers record these on the paper.  An image of the landform that corresponds to the coordinates also appears on the video screen.  Explorers cover the monitor with a piece of paper and trace the landforms, curvature lines and globe edge lines shown there.  

Arkansas Education Framework Correlations:

SCIENCE: STRAND 1: NATURE OF SCIENCE
STANDARD 1: CHARACTERISTICS AND PROCESSES OF SCIENCE
NS. 1.6.4. Construct and interpret scientific data using
·data tables/charts
·bar and double bar graphs
STRAND 3: PHYSICAL SCIENCE
STANDARD 7: ENERGY AND TRANSFER OF ENERGY
PS.7.6.4. Investigate the transfer of energy in real world situations:
*conduction
*convection
*radiation
STRAND 4: EARTH AND SPACE SCIENCE
STANDARD 8: EARTH SYSTEMS
ESS. 8.6.3. Model how convection currents in the mantle affect lithosphere movement
ESS. 8.6.9. Research local, regional, and state landforms created by internal forces in the earth:
·Ozark Plateau
·Crater of Diamonds
·Ouachita Mountains
·New Madrid Fault

Explorers are provided with a video microscope and a macro zoom lens to investigate several samples of soil and other material.  Explorers are instructed to look for the precious element “Nostradimium”.

Activity detail: Explorers freely explore samples by placing Petri dishes over a tempered glass window in the countertop.  A camera magnifies the images 70 times and is mounted under the window so it cannot be manipulated.  The focal length of the camera is pre-set to take a clear image of whatever rests at the bottom of the Petri dishes.  Explorers record their findings on the clipboard.

Explorers can also place other objects on the window to explore them up close.  Coins, paper money, fingers/hands and facial features all make excellent investigative topics.

Arkansas Education Framework Correlations:

SCIENCE:  These frameworks will provided when specific samples for observation and identification have been chosen.