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Tag: Facilities Maintenance

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Thornton, 2006

The purpose of this study is to examine the relationship between building conditions and student achievement of students identified in the subgroups of poverty and minority in high schools in the Commonwealth of Virginia. The targeted population was identified by using the study conducted by Crook (2006) which included information obtained from seventy-two high schools across the Commonwealth of Virginia. Building conditions used in the study were based upon the responses received from principals on the Commonwealth Assessment of Physical Environment (CAPE) form.

The scaled scores of economically disadvantaged students and minority students on the Standards of Learning tests administered in grades nine through eleven during the 2004-2005 school year were used to measure student achievement. The status of economically disadvantaged students was controlled by the classification of a student receiving free and reduced-priced lunch during the 2004-2005 school year. The status of minority students was controlled by ethnicity as reported by the individual schools to the Virginia Department of Education for the 2004-2005 school year.

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Cash and Twiford, 2010

This paper will provide a plethora of data that research has provided regarding how the learning environment can improve student performance.  Over a decade of research has consistently confirmed that the physical environment impacts the learning environment and student achievement.  In an era of data-driven decision making, one cannot ignore evidence that is quantified and specific.  Some factors require minimum investment, but provide significant return.  The authors, who come to the university after extended careers in K-12 public education, have benefited from their own responses to the findings.

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Bullock, 2007

The purpose of this study was to investigate the relationship between school building condition and student achievement as measured by their performance on the Standards of Learning (SOL) examinations at the middle school level in the Commonwealth of Virginia.

Three major data components were used to complete this study. The first component was the condition of the school buildings. To obtain this information, principals were asked to complete the Commonwealth Assessment of Physical Environment (CAPE) assessment instrument. The second component was the percentage of passing scores from SOL examinations for each middle school in the Commonwealth of Virginia. The third component was the socioeconomic status of the students attending the schools as measured by the percentage of students participating in the free and reduced lunch program.

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Lumpkin, 2013

In Florida, public K-12 students are being educated in two conditions, old and new school buildings, those erected prior to the statewide implementation of the State Uniform Building Code for Public Educational Facilities Construction (UBC) in 2000 and those constructed after.

One research question guided this inquiry. Does the aggregate percentage of fourth, eighth, ninth, and tenth grade students passing the Florida Comprehensive Assessment Test (FCAT) mathematics and reading subtests increase after transitioning from an old school building to a new facility? A causal-comparative research design was used to determine if the academic achievement of students as measured by the mathematics and reading subtests of the FCAT increased after relocating from an old school building to a new 2000 UBC compliant facility. Two preexisting groups were used. The control group was two cohorts of students attending school in old buildings. The experimental group was two cohorts of students attending school in new buildings. The treatment was the transition from an old school building to a new 2000 UBC compliant structure. Results from this study indicated that the mean percent of students passing the FCAT mathematics subtest increased from M = 48.11in the old school buildings to M = 54.67 in the new school buildings. The mean percent of students passing the FCAT reading subtest increased from M = 41.25 in the old school buildings to M = 44.28 in the new school buildings. The evidence from this study suggests that the quality of the school environment is important to student academic achievement.

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Florida Department of Environmental Protection, 2007

Hazardous materials can be found in many programs and areas within a school. These include art classrooms; science stockrooms and laboratories; auto, metal and wood shop classes; photography darkrooms; printing rooms; and grounds maintenance and custodial departments. Mercury thermometers or mercury blood pressure sphygmomanometers may be present in nurses’ offices. Often, these chemicals are not well managed: they are stored in the wrong place, in decrepit containers, and alongside other chemicals with which they are incompatible. Because staff often does not know what to do with old chemicals that are no longer used, the chemicals are kept, sometimes for decades, after which time many chemicals deteriorate, become contaminated or even unstable.

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Rose and Porgio, 2015

Education in the broadest sense is any act or experience that has a formative effect on the mind, character or physical ability of an individual. No one has yet realized the wealth of sympathy, the kindness and generosity hidden in the soul of a child. The effort of every true education should be to unlock that treasure. The concept of achievement involves the interaction of the factors namely aptitude for learning, readiness for learning, and opportunity for learning. It is the accomplishment or acquired proficiency in the performance of an individual in a given skill or body of knowledge. It is the criterion for selection, promotion or recognition in various walks of life. The central job of high schools is to maximize the capacity of each student. If the school climate is not positive, students will underperform, student attendance and student discipline are not likely to improve and school safety coned be compromised. If the school climate is not positive, students will underperform, student attendance and student discipline are not likely to improve and school safety coned be compromised. The physical environment should be welcoming and conducive to learning. In the present study the investigators have adopted stratified random sampling method for data collection. The sample for the present study consists of 1000 high school students from 27 schools of Kanyakumari, Tirunelveli, and Tuticorin districts. The tools constructed by the researchers were teacher effectiveness scale and academic achievement scale. For data analysis statistical techniques such as Percentage analysis, Mean, Standard Deviation and‘t’ test were employed. The physical climate of the self- financed high schools is greater than the government and aided high school students. Government and the Management may set up a part of reasoned sum of money for improving the physical climate of their schools. Government may come forward to provide additional grants to improve the physical climate of the schools such as classroom, furniture and equipment.

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By Angel Ford

She’s been teaching elementary grades for over 30 years.  At times she’s been in clean, well maintained classrooms with plenty of functional desks.  At times she’s been in classrooms with broken fixtures and a shortage of desks.

This year the poor conditions are just too much.  She has a student that can’t fit into any of the desks and has to sacrifice her own workspace just so he has a place to sit.  It’s December and she’s going on her second month without heat.  She encourages her students to wear gloves in the classroom. 

The lighting is out in one corner of her room so that students struggle to see their books and assignments.  One of her students recently broke a leg and is in a wheelchair.  The classroom is so small that he has to sit in the doorway—creating a safety hazard, while at the same time bringing in the added distraction of hallway noise.

In addition to these struggles, the custodial staff has been reduced and classrooms are only cleaned once a week.  Teachers are expected to take out their classroom trash daily.

The problems reach beyond individual classrooms.  Right now a couple of the stalls in the girls’ bathroom are not working, so bathroom breaks take longer than usual, taking time away from instruction.   The playground has equipment that is cordoned off because of safety concerns, so the children have less encouragement for physical activity while outside for recess.

Sure, there had been other trials increasing over the past few years too, such as administrative turnover and increases in high stakes testing.  Yet it is simply too much to ask of an educator trying to teach children to read and perform mathematic computations, to be in a classroom without appropriate climate control, and to have to keep it clean throughout the week, and then to sacrifice safety, to accommodate an injured child.

She knew a couple of the newer teachers who were looking for positions in other local schools that were in better physical condition, but she was just too tired.  She would retire early.  Her plan had been to work a couple more years, but now she just didn’t feel she would have the energy.  She walked down the hall—picking up wadded papers along the way—and slipped her letter of resignation into her principal’s mailbox.  She would do her best to make it through the next two months.  She loved her second graders and she would miss them, but her bones ached from the cold and she didn’t have the energy to explain to parents why their students had to bundle up to sit in her classroom. 

There were many factors leading to her decision, but the one in the front of her mind was the physical condition of her classroom and the rest of the school. 

The story above is a fictional portrayal of actual situations I have personally witnessed or heard about from educators.  This scene, or ones close it, plays out all too often in school buildings around our nation.  We have a growing problem of teachers leaving the profession, and I propose that one factor is the increasing deterioration of the physical conditions in which they must work and teach.

Evidence shows that teachers in facilities that are in poor physical condition have more negative attitudes about their classrooms than teachers in good facilities (Earthman & Lemasters, 2009).  With over half of the schools in America in need of repairs to be in ‘good’ condition (NCES, 2014), a great number of teachers are working in suboptimal conditions.  Add to this the fact that if the school buildings are in poor shape there is often the companion problem of not having enough resources available, and frustration increases (Uline & Tschannen-Moran, 2008).

Emphasis must be placed on maintaining learning spaces that are in acceptable condition and improving those that are not.  Investing in school buildings is one way to invest in the teachers that use the spaces (Buckley, Schneider, & Shang, 2005).  Providing safe and healthy school environments may encourage educators to stay in their field.

References

Buckley, J., Schneider, M., & Shang, Y. (2005). Fix it and they might stay: School facility quality and teacher retention in Washington, DC. The Teachers College Record107(5), 1107-1123.

Earthman, G. I., & Lemasters, L. K. (2009). Teacher attitudes about classroom conditions. Journal of Educational Administration, 47(3), 323-335.

National Center for Education Statistics (NCES). (2014). Condition of America’s public schools facilities. Retrieved from http://nces.ed.gov/pubs2014/2014022.pdf

Uline, C., & Tschannen-Moran, M. (2008). The walls speak: The interplay of quality facilities, school climate, and student achievement. Journal of Educational Administration, 46(1), 55-73.

Angel Ford is a research associate with Education Facilities Clearinghouse, where she is actively involved in research and content management of the EFC Website.  She is also currently pursuing her Doctorate in Education with her dissertation topic  in the area of educational facilities.

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School Planning and Management, 2015

As with most schools, maintenance and operating budgets at Union Grove School District, in Union Grove, WI. were spread pretty thin. Fortunately, Kurt Jorgensen, director of Operations & Facilities at Union Grove High School, found a way to save time and money, while at the same time improving security, by specifying Special-Lite FRP Doors.

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School Planning and Management, 2015

In today’s fast-paced construction environment, project schedules are compressed throughout the entire process. This has occurred due to advances in construction practices and technology, along with the desire to reduce overall project cost as the “time is money” mandate drives the bottom line.

In many cases, this expedited process results in less than desirable installation conditions, specifically related to high moisture conditions within the slab subfloor. To better understand these conditions, the following will provide brief explanations of:

  • Sources of concrete slab moisture
  • Methods to determine concrete slab moisture level
  • Modular carpet adhesives that provide adhesion bonding capability with high moisture subfloor environments

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American Federation of Teachers, American Institute of Architects, American Lung Association, Federation of American Scientists, and U.S. Green Building Council, 2006

Some 55 million students spend their days in schools that are too often unhealthy and that restrict their ability to learn. A recent and rapidly growing trend is to design schools with the specific intent of providing healthy, comfortable and productive learning environments. These green, high performance schools generally cost more to build, which has been considered a major obstacle at a time of limited school budgets and an expanding student population. A 2005 survey by Turner Construction Company of 665 senior executives found that executives are discouraged from undertaking green construction because of concerns about cost, and a lack of awareness and available information on the financial benefits of green buildings.

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