EF-1.4 Statics Springs

 

EF-1.4 Statics Springs

The EF-1.4 Springs experiment kit enables students to learn about Hooke’s law when applied to both extension and compression springs. Students can experiment with a single spring, springs in series or in parallel.

A variety of compression springs are included to enable students to learn about spring rates.

 

 

Description

The EF-1.4 Springs experiment kit enables students to learn about Hooke’s law when applied to both extension and compression springs. Students can experiment with a single spring, springs in series or in parallel. A variety of compression springs are included to enable students to learn about spring rates.

The Engineering Fundamentals range is designed to enable students to gain an understanding of the fundamentals of engineering by the process of learning via hands-on experimentation. The modular hands-on tray based system is supplied in conjunction with a multifunctional Base Unit enabling the student to conduct their own experiments in subjects such as Statics, Dynamics, Mechanisms and Kinematics.

Each kit is supplied with a highly visual user friendly operational guide, enabling the student to understand the theory of the subject by the application of practical experimentation.

Technical Specifications

Features & Benefits

Features

  • Neatly presented in an easily identifiable and durable storage tray
  • Trays have clear lids making it easy to see their contents
  • Pictorial tray contents list to identify missing components easily
  • Accompanied by a detailed manual with various practical exercises
  • Clear and concise assembly instructions for each experiment
  • Multiple experiments per kit
  • Toolless assembly

Benefits

  • Hands-on understanding from lessons
  • Improve the student’s dexterity by self-assemblywith the instructions provided

Downloads

  • Hooke’s law applied to compression springs, single spring
  • Hooke’s law applied to compression springs in series
  • Hooke’s law applied to compression springs in parallel
  • Hooke’s law applied to extension springs, single spring
  • Hooke’s law applied to extension springs in series
  • Hooke’s law applied to extension springs in parallel

  • Hooke’s law guide block
  • Hooke’s law spring end
  • Hooke’s law link bar
  • 250g weights set on hanger
  • Magnetic ruler, 300mm / 12”
  • 2 x Compression spring 0.05n/mm (red)
  • 2 x Compression spring 0.07n/mm (yellow)
  • 2 x Compression spring 0.09n/mm (blue)
  • 2 x Compression spring 0.11n/mm (black)

EF-BU Base Unit

 

  • EF-BU Base Unit
  • Statics Experiments

– EF-1.1 Forces
– EF-1.2 Moments
– EF-1.3a Beams
– EF-1.3bTrusses
– EF-1.4 Springs
– EF-1.5 Torsion

  • Dynamics Experiments

– EF-2.1 Friction
– EF-2.2 Simple Harmonic Motion
– EF-2.3 Rotational Friction
– EF-2.4 Potential and Kinetic Energy
– EF-2.5 Centrifugal and Centripetal Force

  • Mechanisms Experiments

– EF-3.1 Cam, Crank and Toggle
– EF-3.2 Simple Mechanisms
– EF-3.3 Additional Mechanisms
– EF-3.4 Bar Linkages

  • Kinematics

– EF-4.1 Pulleys
– EF-4.2 Gears
– EF-4.3 Drive Systems

  • Strength of Materials

– EF-5.1 Tensile Tester

  • Options

– EF-WS Workstation

  • EF-BU on which to build the experiment from the tray components.
  • Level and stable work surface to mount the EF-BU upon. The optional EF-WS is ideal for this if no suitable desk or bench is available.

Packed and crated shipping specifications

Volume: 0.02m³
Gross weight: 5Kg

Tray

Length: 0.430m
Width: 0.312m
Height: 0.080m

  • EF-1.4 – Springs
  • EF-BU – Base Unit
  • EF-WS – Workstation (optional)

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