uncleflo
Registered since September 28th, 2017
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Process of buying a house: timeline - MoneySavingExpert
Saved by uncleflo on April 18th, 2019.
Buying a home is one of the most stressful things you can do, but knowing what to do and when, will make the ride much smoother. This guide walks you through the 25 steps to buying a home, including timescales, and arms you with the knowledge needed to give your solicitor a kick up the bum along the way.
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Fundrise Starter Portfolio
Saved by uncleflo on December 28th, 2017.
Starter Portfolio. With our lowest-ever $500 minimum plus great special offers, it’s easier than ever to get started with real estate investing. Introducing two more great reasons to try Fundrise. Zero advisory fees through year end. We’re waiving all advisory fees through December 31, 2017. After that, advisory fees are an ultra-low 0.15% per year. Our technology-driven model is up to 40% more cost-efficient than publicly-traded investments. For a full description of fees, see the offering circulars. 90 day satisfaction period, If you don’t love it, get your money back, Introducing a zero-stress way to see if Fundrise is a good fit for you. If at any time during your first 90 days you’re not satisfied, we will buy your investment back at the original investment amount. (Certain restrictions may apply. See offering circulars for details). Earn attractive income vs.
publicly traded investments. By investing directly in private market real estate, Fundrise portfolios earn higher annual current income than public income-focused investments. The figure shown here represents the Q4 2017 currently declared dividends for the Starter Portfolio, compared to public market REIT ETFs and public market bond funds. Learn more about the assumptions in this section, or view our full disclosure.
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Thick Walled Cylinders
Saved by uncleflo on April 4th, 2015.
These notes relate to the stresses and strains existing in thick walled cylinders when subject to internal and external pressures. The notes include the analysis of two or more cylindrical parts, assembled by press fitting or shrinking, resulting in an interference fit between the parts. The equations resulting enable estimates of the forces need to assemble and separate the parts and the maximum torque which can be transmitted by the assembly. Members of excelcalcs.com can upload a spreadsheet including all of the derived equations below at ExcelCalcs.com calculation Thick cylinders
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Objectives_template
Saved by uncleflo on April 4th, 2015.
Now, let us assume that we have measured all the engineering constants of an orthotropic material along principal directions. With these engineering constants we know the relation between the strain and stress components as given in Equation (3.42) and Equation (3.43). Thus, it is easy to see that we can relate the strain components to stress components through compliance matrix. Let us recall from previous lecture the stiffness matrix for orthotropic material (Equation (3.26)). The inverse of this matrix (compliance) will have the same form as the stiffness matrix. Thus, we write the relationship between strain and stress components using compliance matrix as follows
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Shock Mitigation in Low-Density Thermoplastic Foams Part I – Dealing with Inbound Kinetic Energy
Saved by uncleflo on December 7th, 2014.
Low-density thermoplastic foams are frequently used as energy-absorbing foams. That is, kinetic energy from an incoming mass is mostly dissipated in the foam, resulting in little, if any, throwback or reverse propulsion of the mass from the foam. Typically, energy absorption is described in terms of the area under the foam stress-strain curve. The typical stress-strain curve for a low-density foam is depicted as having three general components: At low compression, say, less than about 5%, the foam acts as a Hookean elastic spring. That is, the extent of compression, ε, is directly proportional to the applied stress, σ , with the proportionality, Ef, being the modulus of the foam: σ = Ef ε. For essentially all foams, the modulus of the foam is directly related to the modulus of the polymer, Ep, and the ratio of squares of the foam density, Ep, and polymer density, ρP: Ef = Ep (ρf / ρo)².
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9 Lies that Keep Our Schedules Overwhelmed
Saved by uncleflo on November 13th, 2014.
The speed of our world is increasing. Technology and communication continue to improve. Information moves faster. And social media rewards those who never turn it off. Expectations, demands, and accessibility continue to expand, but the number of hours in a week do not. As a result, our lives get busier and busier.
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Euler-Bernoulli Beams: Bending, Buckling, and Vibration
Saved by uncleflo on September 2nd, 2014.
Euler-Bernoulli Beams: Bending, Buckling, and Vibration. 2.002 Mechanics and Materials II Department of Mechanical Engineering MIT February 9, 2004
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Stresses in Beams, David Roylance, MIT
Saved by uncleflo on September 2nd, 2014.
Understanding of the stresses induced in beams by bending loads took many years to develop. Galileo worked on this problem,but the theory as we use it today is usually credited principally to the great mathematician Leonard Euler (1707{1783). As will be developed below, beams develop normal stresses in the lengthwise direction that vary from a maximum in tension at one surface, to zero at the beam's midplane, to a maximum in compression at the opposite surface. Shear stresses are also induced, although these are often negligible in comparision with the normal stresses when the length-to-height ratio of the beam is large.
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Isotropic Linear Elastic Stress Concentration, Massachusetts Institute of Technology
Saved by uncleflo on September 2nd, 2014.
The primary objectives of this lab are to introduce the concept of stress and strain concentration factors in notched structural configurations. The notion of stress concentration is experimentally explored qualitatively, using photoelasticity, and quantitatively, using experimental, analytical, and numerical methods. 2.002 Mechanics and Materials II, Spring 2004
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ARCH 324 - Structures 2 | Open.Michigan
Saved by uncleflo on May 30th, 2014.
This course covers the basic principles of elastic behavior for different materials such as wood, steel, concrete, and composite materials and compares the properties and applications of materials generally. It investigates cross sectional stress and strain behavior in flexure and in shear, and torsion as well as the stability of beams and columns. The qualitative behavior of combined stresses and fracture in materials is also covered.
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Stress Test
Saved by uncleflo on November 22nd, 2011.
In this fast paced, constantly changing world, stress is an ever increasing problem. Undue stress wears down our immune system and leaves us susceptible to all types of physical ailments. The following list contains symptoms generally related to stress.You can print this page or just keep track of your score as you rate each symptom according to the following rating scale.
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