A follow-up of the 1976-1977 MFLS-1 dataset covering the respondents'' and spouses'' marriage, fertility, employment, education and migration histories as well as extensive information on the household economy. The MFLS-2 contains a supplementary sample of persons age 50 or older. The data permit analysis of intergenerational transfers to the elderly and their covariates; the living arrangements of the elderly; the health of the elderly; labor supply, occupation and retirement status of the elderly; and their migration patterns. This supplement fills the gap left by many standard sources of demographic and economic information about Third World populations, such as fertility surveys and labor force surveys, which effectively exclude the elderly. Field work for MFLS-2 began in Aug. 1988 and was completed in Jan. 1989. The survey was fielded in four samples: * The Panel Sample Women who were the primary respondents to the MFLS-1, who at that time (1976) were ever-married women aged 50 or younger. There are 926 panel households in MFLS-2, a follow-up rate of 72%. * The Children Sample Children aged 18 or older in 1988 of the women interviewed as primary respondents for MFLS-1; i.e. adult children of the women eligible for the MFLS-2 Panel sample. There were interviews with one child, selected at random, inside the Panel household and two children, selected at random, living elsewhere in Peninsular Malaysia. There are 1,136 respondents in the Children sample. * The New Sample A sample of households with a woman aged 18-49 (regardless of her marital status) or an ever-married woman under age 18. There are 2,184 respondents in MFLS-2 New Sample. * The Senior Sample Selected households with a person age 50 or over. There are 1,357 respondents in the Senior Sample. Data Availability: The MFLS-2 (and MFLS-1) data files and documentation are available on-line or from NACDA at ICPSR as Study No. 9805. * Dates of Study: 1988-1989 * Study Features: International * Sample Size: Seniors (aged 50+): 1,357 Link: * ICPSR: http://www.icpsr.umich.edu/icpsrweb/ICPSR/studies/09805

This data set represents lakes,springs, rivers, streams/creeks, wetlands and aquifers within the SJRWMD that have been adopted or will be adopted by governing board rule. The St. Johns River Water Management District (SJRWMD) which includes all or part of18 counties in northeast Florida, maintains a District-wide effort to develop minimum flows and levels for the protection of water bodies, water courses, associate wetlands, and aquifers from significant harm caused by water withdrawal or diversion. The minimum flows and levels (MFL) project goal is to establish minimum flows and levels for prioritized ground and surface water resources and water dependent ecosystems and to assure water for non-consumptive uses. Minimum lake levels have been established for 123 (November 2011) of the 1386 water body/systems in the MFL lake database. Prioritization of the 1386 water bodies for minimum level determinations is an evolving, multifaceted effort. Minimum lake level determinations between 1985 and 1993 were performed at lakes which had experienced any of the following criteria: Consistently low water levels. Citizen complaints regarding low water levels. Large consumptive use permits (CUPs) for surface water removal allocations. The following three criteria were added to the original criteria during FY 93-94. Legal action. The availability of a surface and groundwater interaction model. The need to develop minimum level criteria at pristine lakes. The prioritization criteria changed in FY 94-95 resulting in minimum level determinations primarily at lakes designated in a legal settlement agreement. The settlement agreement has been the primary criteria for prioritization since FY 94-95 to the present. Additional criteria were employed from FY 96-97 to the present which focused on lakes for the following reasons: Regions with year 2030 projected groundwater drawdown, CUPs, Local government requests, Large pristine lakes (>200 acres) with hydric soils and associated wetland communities, located in regions where few lakes had been studied. For further information go to https://www.sjrwmd.com/minimumflowsandlevels

Bilangan Peserta Program Malaysia Future Leaders School (MFLS) Mengikut Kohort, Umur dan Bangsa di bawah Institut Pembangunan dan Kecemerlangan Kepimpinan (i-LEAD)

Uncover historical ownership history and changes over time by performing a reverse Whois lookup for the company FOREZIENNE-MLFS.

Historical Dataset of MFL Marmac Comm School District is provided by PublicSchoolReview and contain statistics on metrics:Comparison of Diversity Score Trends,Total Revenues Trends,Total Expenditure Trends,Average Revenue Per Student Trends,Average Expenditure Per Student Trends,Reading and Language Arts Proficiency Trends,Math Proficiency Trends,Science Proficiency Trends,Graduation Rate Trends,Overall School District Rank Trends,American Indian Student Percentage Comparison Over Years (2001-2007),Asian Student Percentage Comparison Over Years (1990-1994),Hispanic Student Percentage Comparison Over Years (2003-2023),Black Student Percentage Comparison Over Years (2003-2022),White Student Percentage Comparison Over Years (1991-2023),Two or More Races Student Percentage Comparison Over Years (2013-2023),Comparison of Students By Grade Trends

This dataset tracks annual distribution of students across grade levels in MFL Marmac Comm School District and average distribution per school district in Iowa

Magnetic Flux Leakage Testing Market Outlook

The global market size for Magnetic Flux Leakage (MFL) Testing is projected to grow from $1.4 billion in 2023 to $2.7 billion by 2032, driven by a compound annual growth rate (CAGR) of 7.5%. This upward trajectory is primarily fueled by the expanding application of MFL testing in various industries such as oil & gas, power generation, and manufacturing, along with advancements in technology and increasing regulatory standards for safety and quality.

One of the principal growth factors driving the Magnetic Flux Leakage Testing market is the rising need for non-destructive testing (NDT) techniques to ensure the structural integrity and safety of critical infrastructure. With aging infrastructure, particularly in developed regions, there is a heightened demand for reliable inspection techniques that can detect flaws without causing damage. MFL testing, known for its high sensitivity and ability to detect both surface and near-surface defects, is becoming the preferred method across various sectors.

Another key growth driver is the technological advancements in MFL testing equipment and software. Enhanced capabilities such as improved data acquisition, better resolution, and sophisticated imaging techniques are making MFL testing more accurate and user-friendly. Additionally, the integration of artificial intelligence and machine learning into MFL systems is enabling more precise analysis and predictive maintenance, further boosting market growth. Companies are increasingly investing in research and development to stay competitive and meet the evolving needs of end-users.

The regulatory landscape also plays a significant role in the market's expansion. Stringent safety and quality regulations across industries such as oil & gas, automotive, and aerospace necessitate regular inspection and maintenance of equipment and infrastructure. Compliance with these regulations often requires advanced NDT methods like MFL testing. Moreover, increasing awareness about the potential hazards of undetected defects is prompting industries to adopt more rigorous inspection processes, thereby driving the demand for MFL testing services.

From a regional perspective, North America and Europe are currently the largest markets for MFL testing, mainly due to the presence of numerous industrial facilities and stringent regulatory frameworks. In contrast, the Asia Pacific region is expected to witness the highest growth rate during the forecast period, thanks to rapid industrialization, infrastructure development, and growing awareness about non-destructive testing methods. Countries like China and India, with their expanding oil & gas and manufacturing sectors, are poised to be key contributors to the market's growth in this region.

Component Analysis

In the Magnetic Flux Leakage Testing market, the component segment is categorized into equipment, software, and services. The equipment segment holds the largest market share, driven by the increasing demand for advanced and reliable MFL testing tools. These tools are essential for conducting accurate inspections, and advancements in technology are continuously enhancing their performance. Portable and automated MFL equipment are gaining popularity due to their ease of use and efficiency in various field applications.

The role of Metal Flaw Detector technology in the Magnetic Flux Leakage Testing market cannot be overstated. As industries increasingly prioritize safety and reliability, the demand for precise flaw detection tools has surged. Metal Flaw Detectors are pivotal in identifying minute imperfections in metal structures, which could otherwise lead to significant failures. Their integration into MFL systems enhances the accuracy of inspections, ensuring that even the smallest defects are detected and addressed promptly. This technology is particularly beneficial in sectors like aerospace and automotive, where structural integrity is paramount. The advancement of Metal Flaw Detectors is thus a key factor in the evolution of non-destructive testing methods, contributing to the overall growth of the MFL testing market.

Software is another crucial component in the MFL testing market, providing enhanced data analysis and visualization capabilities. Advanced so

This dataset tracks annual average revenue per student from 1995 to 2021 for MFL Marmac Comm School District

The St. Johns River Water Management District (SJRWMD) which includes all or part of 18 counties in northeast Florida, maintains a District-wide effort to develop minimum flows and levels for the protection of water bodies, water courses, associated wetlands, and aquifers from significant harm caused by water withdrawal or diversion. The minimum flows and levels (MFL) program goal is to establish minimum flows and levels for prioritized ground and surface water resources and water dependent ecosystems and to assure water for non-consumptive uses. Minimum lake levels have been established for 123 (November 2011) of the 1386 systems in the MFL lake database.

This dataset tracks annual white student percentage from 1991 to 2023 for Mfl Marmac High School vs. Iowa and MFL Marmac Comm School District

The Estero Bay watershed is under significant development pressure with potential impacts on storm water runoff characteristics, and changes in salinity patterns, nutrient and turbidity levels. Environmental quality in the bay is particularly vulnerable to future degradation due to increasing urbanization and the Bay's limited volume. In recent years, the Caloosahatchee Estuary system has also been impacted due to development and water management activities. These impacts have prompted the development of Minimum Flows and Levels (MFLs) for the Caloosahatchee River by the South Florida Water Management District (SFWMD). A District revision of the MFLs for the Caloosahatchee River and Estero Bay regions required the development of hydrodynamic and water quality models. The U.S. Geological Survey (USGS), in cooperation with SFWMD, performed a bathymetric survey of lower Estero Bay using single-beam and aircraft-based lidar systems. High resolution, acoustic and lidar bathymetric surveying are proven methods to map sea and river floor elevations. Survey track-lines were spaced 250-meters apart orientated along long axis of the river, bays, and estuaries. Several perimeter survey lines were also collected. This report serves as an archive of processed lidar bathymetry data that were collected in Estero Bay, Florida in 2003. Geographic Information System (GIS) data products include XYZ data, bathymetric contours, and a USGS quadrangle map. Additional files include formal Federal Geographic Data Committee (FGDC) metadata.

Mfl Exports Company Export Import Records. Follow the Eximpedia platform for HS code, importer-exporter records, and customs shipment details.

Chapter 40E-8 establishes minimum flows for specific surface water courses and minimum water levels for specific surface waters and aquifers within the SFWMD, pursuant to Section 373.042, F.S. and establishes the rule framework for implementation of recovery and prevention strategies, developed pursuant to Section 373.0421, F.S. Effective July 14, 2014

This dataset tracks annual diversity score from 1993 to 2023 for MFL Marmac Comm School District vs. Iowa

This Experimental ArcGIS Online Web Map is maintained by the National Weather Service in Miami Florida (MFL), and is the primary mapping application used by the MFL Data Viewer, both of which are designed as a self briefing tool among the IDSS (Impact-based Decision Support Services) initiative. IDSS is forecast advice and interpretative services to assist core partners’ decision-making when weather, water, or climate has a direct impact on the protection of lives and property. As a part of the overall IDSS briefing suite of webpages, this mapping application provides these core partners with pertinent, timely, and reliable information to aid their decision making processes.

Updated 20250715

Background Acquiring a second language is an invaluable skill that allows for travel, trade and diplomacy. Previously in the UK, learning a second language at school was only required in secondary school (aged 11+ years). In 2014, the Department for Education stipulated that children in Key Stage Two (ages 7-10 years) are required to spend a minimum of one hour per week learning a Modern Foreign Language (MFL), such as Spanish, French or German. Whilst this was a step towards increasing the number of multilingual speakers in the UK, a review by Holmes and Myles (2019) found there was significant variation in the amount of time and planning dedicated to MFL lessons across primary schools and this could be explained by the lack of guidance given to teachers on how best to teach MFLs. Therefore, it is important to identify consistent, evidence-based approaches to teaching second languages in order to support both teachers and students in MFL lessons.

The first step in learning any new language is to learn individual words and typically this involves learning new labels (spoken word forms) for words that are already known in the primary language of the learner. There is a mounting body of research that shows the benefits of presenting written word forms (orthography) when learning new words (Colenbrander et al., 2019; Ricketts, Bishop & Nation., 2009; Rosenthal & Ehri, 2008). This effect is known as orthographic facilitation. Existing research has focused on first language learning, but orthographic facilitation can generalise to foreign language learning, especially for words where orthography is a reliable cue because there is high consistency between their written and spoken forms (Krepel et al., 2020).

Current practices for teaching words in foreign language lessons often do include visual word forms or other visual strategies (Graves, 2017). Yet, the evidence for this approach is limited. Krepel et al. (2020) taught Dutch-speaking children English words. Thus, children who already knew a language that has high consistency between written and spoken forms were taught new words in a language where spelling-sound consistency is lower. The purpose of this study is to see if the orthographic facilitation effect can be replicated in a situation where children who speak English (a less consistent language) learn Spanish (a more consistent language). This study is also novel in testing whether the orthographic facilitation effect translates to classroom teaching. Previously, studies have investigated orthographic facilitation in contexts where teaching is undertaken on an individual basis. In this study, words will be taught to whole classes.

Aims 1) Does orthography facilitate learning of Spanish words for English-speaking children? 2) Can orthographic facilitation be observed when teaching is done with whole classes?

The Magnetic Flux Leakage (MFL) testing market is experiencing robust growth, driven by increasing demand for pipeline integrity management and stringent safety regulations across various industries. The market, estimated at $1.5 billion in 2025, is projected to expand at a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033, reaching approximately $2.8 billion. This growth is fueled by the expanding network of pipelines globally, particularly in the energy and chemical sectors, necessitating regular inspections to prevent costly leaks and environmental disasters. Furthermore, the rising adoption of advanced MFL technologies, offering improved accuracy and efficiency, is accelerating market expansion. The services segment holds a significant market share, driven by the outsourcing of MFL testing by companies lacking in-house expertise or resources. Key regions driving growth include North America and Europe, owing to the mature oil and gas infrastructure and stringent regulatory frameworks in these regions. However, market growth faces certain restraints, including high initial investment costs for MFL equipment and the need for skilled personnel to operate and interpret the data. Despite these restraints, the market's growth trajectory remains positive due to several key trends. These include the increasing adoption of automated and remote MFL inspection systems, reducing operational costs and improving efficiency; the development of innovative data analysis techniques to enhance the accuracy and reliability of defect detection; and growing focus on the integration of MFL testing with other non-destructive testing (NDT) methods for comprehensive asset integrity management. The emergence of cloud-based data management platforms for MFL test results is also streamlining operations and facilitating remote monitoring. Competition is intensifying amongst established players and new entrants, leading to product innovation and service diversification within the market. The market segments, categorized by application (pipelines, storage tanks, others) and type (devices, services), provide diverse opportunities for players across the value chain.

This dataset tracks annual hispanic student percentage from 2003 to 2023 for MFL Marmac Comm School District vs. Iowa

The global magnetic flux leakage (MFL) probe market is experiencing robust growth, driven by increasing demand across diverse sectors. While the exact market size for 2025 isn't provided, considering typical growth rates in the industrial sensor market and referencing similar technologies, a reasonable estimate for the 2025 market size could be in the range of $350 million. Assuming a Compound Annual Growth Rate (CAGR) of 7% (a conservative estimate considering the expanding applications of MFL technology), the market is projected to reach approximately $550 million by 2033. This growth is fueled primarily by the escalating need for efficient and reliable pipeline inspection in the oil and gas industry, alongside rising adoption in aerospace applications for structural integrity assessments. Furthermore, the chemical industry's increasing focus on safety and preventative maintenance contributes significantly to the demand. Technological advancements in probe design, offering improved sensitivity and durability, are further enhancing market appeal. While regulatory hurdles and the relatively high initial investment cost for advanced MFL systems pose some restraints, the long-term benefits of preventative maintenance and the avoidance of costly repairs significantly outweigh these challenges. The market segmentation reveals significant opportunities within specific application areas. The "diameter 20mm or more" probe segment holds substantial market share due to its suitability for larger-diameter pipelines, prevalent in the oil and gas sector. However, the "diameter 20mm and below" segment is expected to witness faster growth due to applications in smaller-diameter pipelines and specialized inspection requirements. Geographically, North America and Europe currently dominate the market, owing to established infrastructure and stringent safety regulations. However, the Asia-Pacific region is poised for rapid expansion driven by significant investments in infrastructure development and the increasing adoption of advanced inspection techniques in emerging economies like China and India. Key players such as Olympus, Eddyfi, and FOERSTER are actively driving innovation and expanding their market presence through strategic partnerships and technological advancements.