6,980 research outputs found
Monitoring changes in skin temperature associated with exercise in horses on a water treadmill by use of infrared thermography
Infrared thermography (IRT) was used to assess surface temperature change as an indirect measure of muscle activity and exercise associated changes in blood flow in the working hind limb muscles of horses (n¼7) undergoing water tread mill exercise. Three treatments were investigated including the treadmill ran dry (TD), water at the height of the proximal interphalangeal joint (PIP) and water at the height of the carpus (CP). Maximum skin surface temperature was recorded from the region of these mitendinosus muscle during exercise at each water height. There was a significant difference in surface hind limb temperature between exercise on the water treadmill ran dry and with water at the height of the PIP and CP (Po0.0001) with hotter temperatures recorded during the TD treatment. There was a greater increase in surface temperature of the hind limbs from preexercise to maximum temperature during the PIP and CP treatments when compared to the TD treatment, however, this was not significant (P¼0.58). There was no significant difference in surface hind limb temperature found between exercise in water at the height of the PIP and water at the height of the CP. The findings from this study suggest that IRT is able to non-invasively detect muscle activity and associated changes in blood flow whilst horses are exercised on a water treadmill. IRT could potentially be used as an alternative method to assess muscle activity and temperature change in an aquatic environment where existing methods present methodological challenges
Abnormal enhancement of electric field inside a thin permittivity-near-zero object in free space
It is found that the electric field can be enhanced strongly inside a
permittivity-near-zero object in free space, when the transverse cross section
of the object is small and the length along the propagation direction of the
incident wave is large enough as compared with the wavelength. The physical
mechanism is explained in details. The incident electromagnetic energy can only
flow almost normally through the outer surface into or out of the
permittivity-near-zero object, which leads to large energy stream density and
then strong electric field inside the object. Meanwhile, the magnetic field
inside the permittivity-near-zero object may be smaller than that of the
incident wave, which is also helpful for enhancing the electric field. Two
permittivity-near-zero objects of simple shapes, namely, a thin cylindrical
shell and a long thin rectangular bar, are chosen for numerical illustration.
The enhancement of the electric field becomes stronger when the
permittivity-near-zero object becomes thinner. The physical mechanism of the
field enhancement is completely different from the plasmonic resonance
enhancement at a metal surface
Squeezing electromagnetic energy with a dielectric split ring inside a permeability-near-zero metamaterial
A novel electromagnetic energy squeezing mechanism is proposed based on the
special properties of permeability-near-zero metamaterials. Nearly no energy
stream can enter a conventional dielectric region positioned inside a
permeability-near-zero material. When a source is surrounded by a dielectric
split ring (encloser with a gap opened), the electromagnetic energy generated
by the source is forced to propagate through the gap. When the gap is narrow,
the energy stream density becomes very large and makes the magnetic field
enhanced drastically in the gap. The narrow gap can be long and bended. This
provides us a method to obtain strong magnetic field without using resonance
enhancement.Comment: 17pages, 4 figure
Delay in diabetic retinopathy screening increases the rate of detection of referable diabetic retinopathy
Aims - To assess whether there is a relationship between delay in retinopathy screening after diagnosis of Type 2 diabetes and level of retinopathy detected.
Methods - Patients were referred from 88 primary care practices to an English National Health Service diabetic eye screening programme. Data for screened patients were extracted from the primary care databases using semi-automated data collection algorithms supplemented by validation processes. The programme uses two-field mydriatic digital photographs graded by a quality assured team.
Results - Data were available for 8183 screened patients with diabetes newly diagnosed in 2005, 2006 or 2007. Only 163 with Type 1 diabetes were identified and were insufficient for analysis. Data were available for 8020 with newly diagnosed Type 2 diabetes. Of these, 3569 were screened within 6 months, 2361 between 6 and 11 months, 1058 between 12 and 17 months, 366 between 18 and 23 months, 428 between 24 and 35 months, and 238 at 3 years or more after diagnosis. There were 5416 (67.5%) graded with no retinopathy, 1629 (20.3%) with background retinopathy in one eye, 753 (9.4%) with background retinopathy in both eyes and 222 (2.8%) had referable diabetic retinopathy. There was a significant trend (P = 0.0004) relating time from diagnosis to screening detecting worsening retinopathy. Of those screened within 6 months of diagnosis, 2.3% had referable retinopathy and, 3 years or more after diagnosis, 4.2% had referable retinopathy.
Conclusions - The rate of detection of referable diabetic retinopathy is elevated in those who were not screened promptly after diagnosis of Type 2 diabetes
Bessel beam propagation: Energy localization and velocity
The propagation of a Bessel beam (or Bessel-X wave) is analyzed on the basis
of a vectorial treatment. The electric and magnetic fields are obtained by
considering a realistic situation able to generate that kind of scalar field.
Specifically, we analyze the field due to a ring-shaped aperture over a
metallic screen on which a linearly polarized plane wave impinges. On this
basis, and in the far field approximation, we can obtain information about the
propagation of energy flux and the velocity of the energy.Comment: 6 pages, 4 figure
Into New Lands: the Principle of Navigation
The principle address at the Forty-fourth commencement of the Rice Institute on May 31, 195
OT 501 Concise Hebrew
1. Bornemann, Robert A Grammar of Biblical Hebrew. Lanham, MD: University Press of America, 1998. Along with the materials created by the instructor, this text will supplement knowledge for the course. We will do some of the exercises from this text as noted below on the Course Outline. It contains lessons which will help us to know all the essentials of Biblical Hebrew grammar. The text is written in a personal dialogical way. 2. Brown, Francis, S. R. Driver, and Charles A. Briggs. A Hebrew and English Lexicon of the Old Testament. Oxford: Oxford, 1907; reprint, Peabody, MA: Hendrickson, 1979. Even though this dictionary or lexicon was published around the beginning of this century, it still provides the most wealth of information per the expense. You will probably agree its format needs revising. We will learn how to use BDB throughout the course. I have designed worksheets to accomplish this task. 3. Elliger, K., and W. Rudolph. Biblia Hebraica Stuttgartensia. Stuttgart: Deutsche Bibelgesellschaft, 1967-77. Referred to as BHS, this is the Hebrew Bible reproduced from the oldest complete manuscript of the Old Testament,Codex Leningradensis (ca. 1008 A.D.), without significant alteration. 4. Scott, William R. A Simplified Guide to BHS. Berkley, CA: BIBAL, 1987. This is a basic introduction to many of the peculiarities of the Hebrew Bible. Scott provides an English key to the Latin text critical notes (found at the very bottom of a BHS page) which were added by scholars this century who edited BHS and to the Aramaic side marginal notes (a.k.a. massorah ) which were put there by Medieval Jewish rabbis who created the vowel and accent system of the Hebrew Bible. Scott also explains many other features of the Hebrew Bible that will help you to understand how it has been put together through hundreds of years. 5. Chisholm, Robert. From Exegesis to Exposition. Grand Rapids: Baker, 1998. This book is designed to help a person figure out the significance of the Hebrew text and to craft a way to communicate its significance. We will read the portions of the text that relate to word study methodology, syntactical issues, and the narrative/poetry issues of the Hebrew Bible.https://place.asburyseminary.edu/syllabi/1690/thumbnail.jp
NT 500 Concise Greek
Green, J.B. Hearing the New Testament. Grand Rapids: Wm.B. Eerdmans, 1995. Caird, G.B. Language and Imagery of the Bible. London: Gerald Duckworth, 1980; reprinted, Grand Rapids, Michigan: Wm.B. Eerdmans, 1997.https://place.asburyseminary.edu/syllabi/2416/thumbnail.jp
NT 500 X Concise Greek
1. Black, David Alan. It\u27s Still Greek to Me: An Easy-to-Understand Guide to Intermediate Greek. Grand Rapids: Baker, 1998. 2. Cotterell, Peter and Max Turner. Linguistics and Biblical Interpretation. London: S.P.C.K.; Downers Grove, Illinois: InterVarsity, 1989. 3. Douglas, J.D., ed. The 5ew Greek-English Interlinear 5ew Testament. Wheaton: Tyndale, 1990. 4. NT500X Course Packethttps://place.asburyseminary.edu/syllabi/1650/thumbnail.jp
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