Stock image for illustration purposes only - book cover, edition or condition may vary.
The Optomechanical Constraint Equations: Theory and Applications (Press Monograph)
Alson E. Hatheway
€ 60.47
FREE Delivery in Ireland
Description for The Optomechanical Constraint Equations: Theory and Applications (Press Monograph)
Paperback. An engineering treatise for mechanical engineers who design and analyse optical systems. It will also be of interest to other professionals working in the optics industry. The treatise is based on both the physical science and the practical realities of designing, analysing, building, testing, and servicing real optical products. Series: Press Monograph. Num Pages: 156 pages. BIC Classification: TTB. Category: (G) General (US: Trade). Dimension: 229 x 152. .
This is an engineering treatise for mechanical engineers who design and analyze optical systems. It will also be of interest to other professionals working in the optics industry. The treatise is based on both the physical science and the practical realities of designing, analyzing, building, testing, and servicing real optical products.
This is an engineering treatise for mechanical engineers who design and analyze optical systems. It will also be of interest to other professionals working in the optics industry. The treatise is based on both the physical science and the practical realities of designing, analyzing, building, testing, and servicing real optical products.
Product Details
Format
Paperback
Publication date
2016
Publisher
Society of Photo Optical
Condition
New
Series
Press Monograph
Number of Pages
156
Place of Publication
Bellingham, United States
ISBN
9781510601758
SKU
V9781510601758
Shipping Time
Usually ships in 7 to 11 working days
Ref
99-1
Reviews for The Optomechanical Constraint Equations: Theory and Applications (Press Monograph)
“An important contribution to the field, this book provides engineers valuable insight into the governing parameters of optomechanical design that develop an engineer’s intuition and lead to superior design solutions.” - Dr. Keith Doyle, MIT Lincoln Lab; Author, Integrated Optomechanical Analysis