Technical specifications

Size of kit: 540 x 450 x 150 mm

• 1 - Measuring the flow velocity

  experiment "Measuring the flow velocity"

  In this experiment, the students use the Venturi tube to measure the flow velocity.

  
  
• 2 - Static lift – hot air balloon

  experiment "Static lift – hot air balloon"

  The students observe what happens to a hot air balloon when it is filled with air using a heating device.

  
  
• 3 - Static lift – solar balloon

  experiment "Static lift – solar balloon"

  In this experiment, the students fan air into a solar balloon.

  
  
• 4 - Forces exerted by air stream

  experiment "Forces exerted by air stream"

  We will shortly provide you with a description of the experiment at this point.

  
  
• 5 - Dynamic lift (1)

  experiment "Dynamic lift (1)"

  The experiment impressively demonstrates the effect of dynamic lift.

  
  
• 6 - Air-flow velocity

  experiment "Air-flow velocity"

  In this experiment, the students examine the flow velocity.

  
  
• 7 - Air-flow processes (Venturi tube)

  experiment "Air-flow processes (Venturi tube)"

  We will shortly provide you with a description of the experiment at this point.

  
  
• 8 - Principle of the inclined tube manometer

  experiment "Principle of the inclined tube manometer"

  We will shortly provide you with a description of the experiment at this point.

  
  
• 9 - Principle of the Pitot tube

  experiment "Principle of the Pitot tube"

  We will shortly provide you with a description of the experiment at this point.

  
  
• 10 - Pressure differences at the air foil

  experiment "Pressure differences at the air foil"

  In this experiment, the pressure differences on a wing are examined and observed.

  
  
• 11 - Pressure distribution along the surface of the airfoil

  experiment "Pressure distribution along the surface of the airfoil"

  In this experiment, the pressure distribution on an airfoil is examined and observed.

  
  
• 12 - Measuring the dynamic lift

  experiment "Measuring the dynamic lift"

  Measurement of dynamic buoyancy using a buoyancy model and a solar balance.

  
  
• 13 - Air-stream distribution around the airfoil

  experiment "Air-stream distribution around the airfoil"

  A thread comb is held over the wing and the flow pattern is determined by observing the threads.

  
  
• 14 - Comparing wind resistant objects

  experiment "Comparing wind resistant objects"

  In this test, a carriage is held in the stop position and then a maximum air flow is set. The car is released and its behavior observed.

  
  
• 15 - Measuring the air-stream resistance

  experiment "Measuring the air-stream resistance"

  The students measure the flow resistance.

  
  
• 16 - Measuring the air-flow resistance at the air foil

  experiment "Measuring the air-flow resistance at the air foil"

  The students measure the air resistance of a wing and examine its dependencies.

  
  
• 17 - Air-stream processes at wind resistant bodies

  experiment "Air-stream processes at wind resistant bodies"

  In this experiment, the students observe the flow processes on resistance bodies.

  
  
• 18 - Turbulence formation

  experiment "Turbulence formation"

  An air screw is rotated and moved in the air flow. The students observe what happens when the plate is brought closer to the propeller.

  
  
• 19 - Principle of the airscrew

  experiment "Principle of the airscrew"

  How does an air screw work? In this experiment, an airfoil is held between the airflow generator and the propeller. the students examine the result.

  
  
• 20 - Propulsive power of an airscrew

  experiment "Propulsive power of an airscrew"

  The students measure the pulling force of an air screw.

  
  
• 21 - Principle of the gyroplane

  experiment "Principle of the gyroplane"

  In this experiment, an air screw is attached at right angles to the rail. The flow speed is increased while the air screw is observed.

  
  
• 22 - How the helicopter propeller works

  experiment "How the helicopter propeller works"

  We will shortly provide you with a description of the experiment at this point.

  
  
• 23 - Principle of repulsion

  experiment "Principle of repulsion"

  The students examine the recoil generated by a balloon.

  
  
• 24 - Dynamic lift (2)

  experiment "Dynamic lift (2)"

  The experiment impressively demonstrates the effect of dynamic lift.

  
  

• 1 × Lifting power model
• 1 × Tray 510x360x20 mm
• 1 × Storing diagram,int.vers.(Flight and Flying)
• 1 × Esbit burner, nickelplate
• 1 × Thread comb
• 1 × Holding clip on rod, 15 mm Ø
• 1 × Holding clip on rod, 25 mm Ø (rod=100x10 mm)
• 1 × Holding clip on rod, 45 mm Ø (rod: 60x10 mm)
• 1 × Support rod for 29056/ 43025/44583
• 1 × Plastic case ca.540x450x150 mm
• 1 × Heat stack, 150 mm
• 1 × Dynamometer, 200 mN
• 1 × Plastic box, 140x50x25mm
• 1 × Colouring agent, red for lab use only
• 1 × Rubber balloons, 100 pcs.
• 1 × Air pump with transparentcylinder
• 1 × Airscrew
• 1 × Measuring cylinder, PP, 25 ml
• 1 × Metal plate, 150 mmØ
• 1 × Mini-hot-air balloon ca.40x32 cm, w. manual
• 3 × Bosshead with slit
• 1 × Pair of adjustable feet for rails
• 1 × Rocket model ROKIT
• 1 × Rider with clamping tube 30 mm
• 2 × Rider with clamping tube 75 mm
• 1 × Foam insert 1 for 29008, 495x350x25 mm
• 1 × Foam insert 2 for 29008, 510x370x80 mm
• 1 × Pressure gauge setup
• 1 × Silicone oil, 10ml
• 1 × Solar zeppelin
• 2 × Stand rod 250x10 mmØ stainless steel
• 1 × Stand rod 100x10 mmØ stainless steel
• 1 × Prandtl tube
• 1 × Styrofoam ball, 70 mm Ø
• 1 × Air foil model
• 1 × Dry combustibles ESBIT 20 tablets
• 1 × Set (3) U-tube manometers
• 1 × All purpose rail, 500 mm
• 1 × Venturi tube w. couplings
• 1 × Scale 0.5 g to 1000 g, / 1 g to 2000 g
• 1 × Carriage with two rods
• 1 ×
• 1 ×
• 1 ×
• 1 × Lidfoam grey,515x355x10mm
• 1 ×