Jigsaw Puzzle > Mary Evans Prints Online > Royal Aeronautical Society > Photographic
Jigsaw Puzzle : Small Laval turbine on screw
Jigsaw Puzzles from Mary Evans Picture Library
Small Laval turbine on screw
Small Laval turbine on screw. Hargrave Slide 39
Mary Evans Picture Library makes available wonderful images created for people to enjoy over the centuries
Media ID 9897007
© Mary Evans Picture Library 2015 - https://copyrighthub.org/s0/hub1/creation/maryevans/MaryEvansPictureID/10843188
Jigsaw Puzzle (520 Pieces)
Discover the captivating world of mechanics with our exquisite jigsaw puzzles from Media Storehouse. This intriguing puzzle, featuring a Small Laval Turbine on a screw, is a must-have for engineers, inventors, and puzzle enthusiasts alike. The intricate details of this Rights Managed image from Mary Evans Prints Online, "Small Laval turbine on screw. Hargrave Slide 39," will challenge and delight as you piece together this complex and beautiful puzzle. Immerse yourself in the history of engineering and mechanics while enjoying a fun and engaging activity for all ages. Complete the puzzle and proudly display your achievement as a conversation starter in your home or office.
Made in the USA, 520-piece puzzles measure 16" x 20" (40.6 x 50.8 cm). Every puzzle is meticulously printed on glossy photo paper, which has a strong 1.33 mm thickness. Delivered in a black storage cardboard box, these puzzles are both stylish and practical. (Note: puzzles contain small parts and are not suitable for children under 3 years of age.)
Jigsaw Puzzles are an ideal gift for any occasion
Estimated Product Size is 50.8cm x 40.5cm (20" x 15.9")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) or portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This intriguing image, Slide 39 from the Hargrave collection at Mary Evans Prints Online, showcases a small Laval turbine ingeniously mounted on a screw. The Laval turbine, named after its inventor, French engineer Georges Laval, is a type of steam turbine that utilizes a centrifugal pump as its first stage. This design innovation significantly reduced the size and weight of steam turbines, making them more suitable for various applications, including aeronautical engineering. In this photograph, the Laval turbine's compactness and intricacy are on full display. The turbine's blades, meticulously arranged in a radial pattern, spin rapidly when steam is introduced, generating power through the conversion of thermal energy into mechanical energy. The screw, with its threaded shaft, serves as a mounting mechanism, securely anchoring the turbine in place. The potential applications of this small Laval turbine in the field of transport are vast. Aviation, in particular, could greatly benefit from the reduced size and weight of steam turbines, leading to more efficient and lightweight aircraft designs. However, this image is not an advertisement for a specific company or product, but rather a testament to the ingenuity and innovation of the engineers and inventors who have shaped the transportation industry throughout history. The marriage of the Laval turbine and the screw in this photograph is a fascinating example of how seemingly unrelated technologies can be combined to create something new and groundbreaking. It serves as a reminder of the endless possibilities that arise when we push the boundaries of our knowledge and imagination.
MADE IN THE USA
Safe Shipping with 30 Day Money Back Guarantee
FREE PERSONALISATION*
We are proud to offer a range of customisation features including Personalised Captions, Color Filters and Picture Zoom Tools
FREE COLORIZATION SERVICE
You can choose advanced AI Colorization for this picture at no extra charge!
SECURE PAYMENTS
We happily accept a wide range of payment options so you can pay for the things you need in the way that is most convenient for you
* Options may vary by product and licensing agreement. Zoomed Pictures can be adjusted in the Cart.