Framed Print > Fine Art Storehouse > Photo Libraries > Dorling Kindersley Prints
Framed Print : Forces involved when wheel and axle lift weight
Framed Photos from Fine Art Storehouse
Forces involved when wheel and axle lift weight
Unleash your creativity and transform your space into a visual masterpiece!
Dorling Kindersley
Media ID 13562105
© This content is subject to copyright
Balance Force Lift Machinery Physical Pressure Physics Picking Up Pulley Weight Weights Wheel Axle Exercise Machine Pulleys Torque
22"x18" (58x48cm) Modern Frame
Experience the wonders of physics brought to life with our Framed Prints from Media Storehouse. This exquisite piece, "Forces involved when wheel and axle lift weight" by Dorling Kindersley from Fine Art Storehouse, showcases the intricate interplay of forces at work when a wheel and axle lift an object. The high-quality print, brought to you from the renowned publisher Dorling Kindersley, is meticulously framed to preserve its vibrant colors and intricate details. Add this captivating print to your home or office to ignite curiosity and inspire learning, making it a perfect addition to any space.
Wood effect frame, card mounted, 16x12 archival quality photo print. Overall outside dimensions 22x18 inches (58x48cm). Environmentally and ozone friendly, 40mm wide x 15mm Polycore® moulding has the look of real wood, is durable and light and easy to hang. Biodegradable and made with non-chlorinated gases (no toxic fumes) it is efficient; producing 100 tons of polystyrene can save 300 tons of trees! Prints are glazed with lightweight, shatterproof, optical clarity acrylic (providing the same general protection from the environment as glass). The back is stapled hardboard with a sawtooth hanger attached. Note: To minimise original artwork cropping, for optimum layout, and to ensure print is secure, the visible print may be marginally smaller
Contemporary Framed and Mounted Prints - Professionally Made and Ready to Hang
Estimated Image Size (if not cropped) is 26.8cm x 39.6cm (10.6" x 15.6")
Estimated Product Size is 47.8cm x 57.9cm (18.8" x 22.8")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This vibrant and educational print titled "Forces involved when wheel and axle lift weight" captures the essence of simple machines in action. Against a crisp white background, a single object takes center stage - a meticulously illustrated illustration showcasing the intricate workings of pulleys, wheels, and axles. In this image by Dorling Kindersley from Fine Art Storehouse, we are invited to delve into the world of physics as we witness the forces at play when lifting weights. The balance between force and torque is beautifully depicted through vivid colors and meticulous attention to detail. With no people present in the scene, our focus is solely on understanding how these mechanical devices work together to magnify force. This studio shot allows us to appreciate every aspect of this exercise machine's design without any distractions. As we explore this illustration technique, it becomes clear that even seemingly complex machinery can be broken down into simpler components. By studying this image closely, one can gain insight into how basic principles like leverage and rotation enable us to effortlessly pick up heavy objects. Whether you're an enthusiast or simply curious about the mechanics behind everyday tasks, this thought-provoking artwork serves as a visual reminder of how simple machines shape our world.
MADE IN THE UK
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
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 Basket.