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| 1. All of the following are assumptions that patients and opticians may typically make when buying progressives except. |
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A.
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Customers must be selective about the frame that they want, |
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B.
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Patients always see best when the prescription verified in the glasses equals the prescription prescribed |
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C.
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There are different progressives for each need |
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D.
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They cost a lot |
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| 2. Like other eyewear that is purchased, most consumers want _______________ when buying, being fit for and getting used to progressives. |
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A.
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Convenience |
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B.
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High pricing |
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C.
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Photochromics |
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D.
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Oversized frames |
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| 3. To best deliver the doctor's prescription, an ______________ approach using the way the frame fits is required. |
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A.
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Investigative |
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B.
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Integrated |
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C.
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Explanatory |
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D.
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All of the above |
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| 4. In new FreeFrame Technology, |
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A.
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The near zone is redesigned to fit the available shape and fitting height required |
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B.
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A fitting height of 16mm is required |
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C.
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The distance vision zone is optimized |
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D.
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The intermediate is redesigned to fit the wearer's need for mid-range vision |
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| 5. FreeFrame technology |
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A.
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Requires that the optician must learn new fitting techniques |
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B.
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Increases the need for more lens materials |
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C.
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Ensures that staff at all levels of expertise can easily fit Autograph lenses |
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D.
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All of the above |
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| 6. Vertex, tilt and faceform |
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A.
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Changes the effective prescription that the patient views |
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B.
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Are important measurements for high-powered lenses |
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C.
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Changes the design effectivity of progressive lenses |
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D.
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All of the above |
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| 7. In As-Worn Technology |
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A.
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The lens design is changed depending on fitting height |
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B.
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The corridor is lengthened based on vertex distance |
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C.
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The distance prescription is adjusted for vertex, tilt and panoramic angle |
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D.
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All of the above |
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| 8. Panoramic angle is an angular measurement of |
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A.
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The tilt of the lens around the vertical axis |
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B.
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The tilt of the lens around the horizontal axis |
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C.
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The distance from the front of the eye to the back of the spectacle lens |
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D.
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The width of the near viewing zone |
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| 9. Pantoscopic angle is |
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A.
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The tilt of the lens around the vertical axis |
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B.
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The tilt of the lens around the horizontal axis |
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C.
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The distance from the front of the eye to the back of the spectacle lens |
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D.
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The width of the near viewing zone |
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| 10. A -4.00D sphere lens, when tilted (panto) 10 degrees |
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A.
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Creates a new sphere power |
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B.
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Creates a cylinder |
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C.
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Induces an axis of a cylinder |
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D.
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All of the above |
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| 11. If vertex, tilt and panoramic angle are not specified |
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A.
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The lab rep will call you for the information |
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B.
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An average set of fitting values will be used |
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C.
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The job will be returned to you |
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D.
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None of the above |
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| 12. When fitting progressives |
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A.
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Each patient will be able to do all tasks with equal ease |
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B.
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All patients will have wide zones of intermediate vision |
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C.
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Ask the patient about their daily vision needs, work, hobbies, outdoors, et |
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D.
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Patients assume that there will be some trouble getting used to them |
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| 13. Autograph Office |
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A.
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Is a custom made back surface occupational lens |
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B.
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Delivers a wider intermediate and near |
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C.
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Can be ordered to also include distance vision |
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D.
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All of the above |
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| 14. Autograph Attitude |
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A.
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Is a customized, back surface progressive |
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B.
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Is peripherally modified for the steeper base and an average wrap angle |
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C.
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Freeform manufactured |
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D.
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All of the above |
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| 15. Single vision lens wearers can have improved vision especially in high powers/cylinders by applying |
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A.
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ANSI standards |
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B.
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As-Worn Technology |
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C.
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Standard toric curves |
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D.
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Using spherical lenses |
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| 16. Shamir Autograph |
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A.
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Is a Freeform manufactured lens |
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B.
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Provides about 20% wider fields of vision than other Shamir front surface progressives |
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C.
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Has a minimum fitting height of 11mm |
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D.
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All of the above |
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| 17. Freeform technology can be used to optimize standard progressive designs by |
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A.
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Modifying the lens back surface to neutralize some of the unwanted front surface errors |
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B.
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Making any progressive better |
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C.
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Lengthening the corridor |
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D.
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All of the above |
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| 18. Modifying back surfaces of known Shamir progressives is called |
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A.
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“Optimization Opportunity” |
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B.
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“Direct Lens Technology” |
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C.
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“FreeFrame Technology” |
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D.
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“Freeforming” |
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| 19. DLT |
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A.
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Widens the clear fields of view |
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B.
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Uses asphericity |
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C.
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Creates partially customized lenses |
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D.
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All of the above |
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| 20. The new series of Freeform based technologies (FreeFrame, As-Worn, Lifestyle and DLT) |
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A.
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Allows more opportunities to personalize progressives |
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B.
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Makes customized lenses easier to dispense |
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C.
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Provides vision and fitting benefits for patients |
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D.
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All of the above |
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