The purpose of this research to explore the impact of parental involvement on the academic achievement of students at Crescent International School and to determine whether the demographic variable of parents has an effect on their involvement in their children's education. In addition, the study sought to examine what existing literature review found on the relation between parental involvement and children's academic achievement. The present study was carried out at Crescent International School in Bangkok, Thailand. The responses of 12 parents, whose children are enrolled in secondary level, were taken as samples for the current study. The Intensity Sampling Technique was used in this research. A questionnaire about demographics of parents was distributed and interviews were conducted to assess the level of parent involvement. To find out student achievement level, the students results were used. The qualitative method was used to gauge the impact of parental involvement on students' academic achievement. The results revealed that parental income level has no impact on the level of involvement in their children's education. However, educational level, age, employment and marital status of the parents had greater impact on parental involvement. The main findings of this research indicated that students with highly involved parents had better academic performance and higher test scores in all the subjects compared to students whose parents were not involved in their education. the findings, suggested that parents should grow more awareness on the importance of visiting and supporting their children in school. It was also recommended that parents should take an active role in assisting their children's education at school and at home since they are the first teachers of their children.
Purpose-led Publishing is a coalition of three not-for-profit publishers in the field of physical sciences: AIP Publishing, the American Physical Society and IOP Publishing.
Together, as publishers that will always put purpose above profit, we have defined a set of industry standards that underpin high-quality, ethical scholarly communications.
We are proudly declaring that science is our only shareholder.
ISSN: 1755-1315
The open access IOP Conference Series: Earth and Environmental Science (EES) provides a fast, versatile and cost-effective proceedings publication service.
View forthcoming volumes accepted for publication.
If you would like more information regarding IOP Conference Series: Earth and Environmental Science please visit conferenceseries.iop.org, and if you are interested in publishing a proceedings with IOP Conference Series please visit our page for conference organizers.
Conference organizers can use our online form and we will get in touch with a quote and further details.Open all abstracts, in this tab
Ibrahima Naite 2021 IOP Conf. Ser.: Earth Environ. Sci. 690 012064
Anna F Rusydi 2018 IOP Conf. Ser.: Earth Environ. Sci. 118 012019
Conductivity (EC) and total dissolved solids (TDS) are water quality parameters, which are used to describe salinity level. These two parameters are correlated and usually expressed by a simple equation: TDS = k EC (in 25 °C). The process of obtaining TDS from water sample is more complex than that of EC. Meanwhile, TDS analysis is very important because it can illustrate groundwater quality, particularly in understanding the effect of seawater intrusion better than EC analysis. These conditions make research in revealing TDS/EC ratios interesting to do. By finding the ratio value, TDS concentration can be measured easily from EC value. However, the ratio cannot be defined easily. Previous research results have found that the correlation between TDS and EC are not always linear. The ratio is not only strongly influenced by salinity contents, but also by materials contents. Furthermore, the analysis of TDS concentration from EC value can be used to give an overview of water quality. For more precision, TDS concentrations need to be analyzed using the gravimetric method in the laboratory.
You Li et al 2021 IOP Conf. Ser.: Earth Environ. Sci. 631 012006
Plastics have been produced and used by humans in large quantities since they were invented, and the resulting environmental pollution problems have become more and more serious. In recent years, researchers have found that many plastic products are not completely decomposed after being discarded, a lot of plastics form microplastics in the ocean, which poses a threat to the survival of marine life. This paper analyzes the source, types and distribution of marine microplastics, and explores the influence of microplastics on marine life.
Kehinde Adeseye Adeyeye et al 2021 IOP Conf. Ser.: Earth Environ. Sci. 801 012020
In this paper, we examine existing literature on the way that the number of blades of a wind turbine affects its efficiency and power generation. A wind turbine blade is an important component of a clean energy system because of its ability to capture energy from the wind. The power that a wind turbine extracts from the wind is directly proportional to the swept area of the blades; consequently, the blades have a direct effect on power generation. The number and configuration of the blades is very important because it affects the speed and efficiency of turbine. Unfortunately, as the number of blades increases, so does the slipstream effect. Too few a number of blades results in poor efficiency and thus inadequate performance. Too large a number of blades increases weight and production cost. The correct number of blades is important to fit the generator performance curve to optimize overall turbine performance and efficiency.
Shiyong Liu 2021 IOP Conf. Ser.: Earth Environ. Sci. 692 022103
Tesla's rapid rise to become one of the world's most influential automakers has marked the start of a new era in the global automobile industry, where many of the traditional auto companies were overshadowed by Tesla's dominance. Judging from Politics, Economy, Society and Technology perspectives, Tesla's market value can potentially be overvalued due to its leading role in the Electrical vehicle market. Economically, Tesla facilities the growth of global economy by creating more employments and manufacturing factories. Socially and politically, Tesla's Electrical Vehicle reduces the level of negative externalities (e.g., pollution), which aligns with the developmental frameworks proposed by governmental policies and regulations. Meanwhile in technological aspect, Tesla pioneers the innovative design of battery pack to reduce the overall cost of battery and seeks to integrate better automatic driving system into electrical vehicle. Given those merits of Tesla, overoptimism on its stock price is expected. Therefore, it is important for stock traders who are willing to throw money at Tesla to ruminate over their choices before making the investment. In this study, the results of valuation methods indicate that true market value of Tesla has been overestimated due to its irregularly high operating cash flow, price-to-earnings ratio and enterprise value to earnings before interest, taxes, depreciation, and amortization ratio, suggesting its stock price is overvalued.
A S Wijaya 2014 IOP Conf. Ser.: Earth Environ. Sci. 19 012008
Climate change becomes one of the most significant challenges faced by most environmentalist all over the world. Every country either developed or developing one has the same need in climate change impact mitigation and adaptation. However, developed countries are believed to have better ability rather than developing countries in particular to climate change adaptation impact. It is described by several indications pointed out by several practitioners. The methods compare findings in both developing and developed countries. It is analyzing two salient data justified by rational arguments and emphasizing with some justifications then finally summarizing with solutions and recommendations.
M Hvass 2024 IOP Conf. Ser.: Earth Environ. Sci. 1320 012015
Outdoor lighting has been dimmed or turned off in European municipalities due to the energy crisis. Dimming of outdoor lighting levels led to energy savings, advantages for biodiversity and less light pollution. But the dimming also triggers the basic human assumption that bright light is connected to safety and darkness is connected to fear. To discuss this basic assumption, human experience of dimmed lighting and perceived safety is explored through three case studies. One study explores human experiences of dimmed street lighting during energy crises, the second study investigates dimmed lighting levels around public transportation, and the third study is an example of a context-specific adaptation of street lighting in a residential area. The case studies reveal that dimmed lighting levels, minimized contrasts, and context-specific lighting can lead to an increased connectedness to the spatial and social urban context and an increased feeling of perceived safety. Thus, more light doesn't always lead to more perceived safety. With a dimmed general lighting level, it is possible to introduce additional subtle lighting layers, structured in a lighting hierarchy to further enhance spatial and social qualities in outdoor contexts in the dark hours. in constructing both.
Taotianchen Wan and Yikai Wang 2022 IOP Conf. Ser.: Earth Environ. Sci. 1011 012026
In recent years, under the double pressure of energy exhaustion and environmental deterioration, the development of electric vehicles has become the major development trend of the automotive industry in the future. This paper discusses the problem of abandoned batteries caused by the limited life of a large number of batteries with the prosperity of new energy vehicle industry. This paper lists and analyzes the different characteristics of batteries commonly used by three new energy vehicles in the market :(1) lead-acid batteries will not leak in the use process due to tight sealing, but their use cycle is very short. (2) The production of nickel metal hydride battery is relatively mature, its production cost is low, and compared with lithium electronic battery is safer. (3) Lithium-ion batteries are made of non-toxic materials, which makes them known as "green batteries". However, they are expensive to make and have poor compatibility with other batteries. Because discarded batteries pose a threat to human health and environmental sustainability, lithium-ion batteries may overheat and fire when exposed to high temperatures or when penetrated, releasing carbon monoxide and hydrogen cyanide that can be very harmful to human health. In addition, waste batteries will also cause water pollution and inhibit the growth and reproduction of aquatic organisms and other potential dangers. Therefore, it is necessary to recycle it efficiently. This paper then introduces the advantages of three recycling methods: step utilization and recovery, ultrasonic recovery and sodium ion battery. These recycling methods can maximize the reuse efficiency of waste batteries. This paper expects to find a better way to recycle waste batteries to solve the potential problems of improper disposal of waste batteries and reduce the environmental hazards of waste batteries.
A Iravanian and Sh O Ravari 2020 IOP Conf. Ser.: Earth Environ. Sci. 614 012083
Waste disposal is one of the important problems in the world. In general, wastes are categorized into different groups, and there are some special landfills and methods for disposing of each of these waste materials. However, it should be noted that although there are some rules and regulations that try to reduce the impact of waste disposal, landfills have negative effects on soil, air, water, and natural life. One of the most important sources of pollution in landfills is the leachate that is generated by the decomposition of waste. Leachate can penetrate into the soil and water resources, contaminate them, and can affect human life. Leachate generation has five different phases and each of these phases contains some reactions that have a direct impact on the quality and quantity of leachate. Leachate has four main types of pollution and each of these pollutants can contaminate soil and water resources and be hazardous for aquatic and animals in the soil. In addition, some of these contaminations can enter the food chain and affect the ecosystem and human life. The negative impacts of landfills remain even years after the landfill is closed. Therefore, it is important to consider the short-term and long-term effects of landfills on their surroundings to protect the environment and human health.
Robert Devi Anugrah et al 2021 IOP Conf. Ser.: Earth Environ. Sci. 755 012001
The large demand for cayenne pepper makes farmers need to make efforts to increase crop production by increasing the efficiency of using fertilizers. The alternative fertilizer comes from household waste, namely egg shells. This study aims to determine the effect of eggshell organic fertilizer on vegetative growth of cayenne pepper (Capsicum frutescens L.). The research method used was an experimental method using a completely randomized design (CRD) with 6 treatments and 5 replications. The treatments were P0 (control), P1, P2, P3, P4, and P5 respectively, the treatment of eggshell organic fertilizer with a dose of 0; 45; 60; 75; 90; and 105 g. The treatments were given 3 days after transplanting and harvesting the plants 35 days after transplanting. Data for each parameter was tested for normality, homogeneity test, and analyzed by 1 factor ANOVA. Furthermore, the LSD test was carried out to determine the difference in effect between treatments. The best application of eggshell organic fertilizer was P4 treatment for parameters of root length and plant wet weight, respectively, 20.10 cm and 17.96 g, and P5 treatment for parameters of plant height and plant dry weight, respectively 54.80 cm and 3.00 g. The percentage of root length and wet weight of P4 treatment plants to control were 130.52% and 269.67%, respectively, while the percentage of plant height and dry weight of P5 treatment plants to control were 139.79% and 282.49%, respectively. The application of eggshell organic fertilizer can increase the vegetative growth of cayenne pepper.
Open all abstracts, in this tab
2024 IOP Conf. Ser.: Earth Environ. Sci. 1321 011001
I want to extend a warm greeting and my sincere gratitude to the eminent keynote speakers, presenters, and attendees of the 2023 5th International Conference on Coastal and Delta Areas (ICCDA 2023). I also want to express my gratitude to the committee, the reviewers, and everyone else for their efforts to support this event.
As it is known, ICCDA 2023 is held in a hybrid format by the Faculty of Engineering, Sultan Agung Islamic University, in collaboration with Rotterdam University of Applied Science, Al Azhar Islamic University, Sangga Buana University, Lancang Kuning University and Semarang University. This conference's main objective is to advance scientific information exchange among researchers, developers, engineers, students, and practitioners from all over the world as well as research and development activities. ICCDA 2023 offers 4 topics: Plan, design, and construction to develop smart infrastructure in coastal and delta areas; Climate change challenge, disaster mitigation, and infrastructure in coastal and delta areas; Sustainable development in coastal & delta areas; and Policy, socioeconomics, law, and multi-aspects to build environment in coastal & delta areas.
Coastal areas have a lot of potential for development. Due to the city's potential for development as an industrial metropolis, port, source of power, recreation, and conservation, coastal area urbanization has great strategic value. The prosperity and wellbeing of the local inhabitants are likely to increase when coastal areas are developed. Based on these reasons, ICCDA 2023 invite speakers from distinguish universities, they are Rick Heikoop from Rotterdam University of Applied Science, Dr. Johannes Herbeck from Universitat Bremen, Dr. Kamarudin bin Hj.Ahmad from Universiti Teknologi Malaysia and Dr. Hermin Poedjiastoeti from Sultan Agung Islamic University.
I want to thank everyone who attended for taking part in this conference. You will undoubtedly find this conference enjoyable with many prospects for future research collaboration as well as gratifying in adopting new information. We really appreciate everyone who helped make this conference successful, whether directly or indirectly. We also thank all of the sponsors for their kind support. Last but not least, I would like to thank the organizing committee for their dedication, patience, and unending help in making this event a success.
Ari Sentani, ST., M.Sc
List of Committees, Reviewer are available in this pdf.
2024 IOP Conf. Ser.: Earth Environ. Sci. 1321 011002
All papers published in this volume have been reviewed through processes administered by the Editors. Reviews were conducted by expert referees to the professional and scientific standards expected of a proceedings journal published by IOP Publishing.
1. Type of peer review: Single anonymous
2. Conference submission management system: Morressier
3. Number of submissions received: 91
4. Number of submissions sent for review: 88
5. Number of submissions accepted: 57
6. Acceptance Rate (Submissions Accepted / Submissions Received × 100): 62 %
7. Average number of reviews per paper: 4.40
8. Total number of reviewers involved: 20
9. Contact person for queries:
Name: Prof. Dr. Ir. Slamet Imam Wahyudi, DEA
Affiliation: Sultan Agung Islamic university
Email: wahyudi@unissula.ac.id
A Sentani et al 2024 IOP Conf. Ser.: Earth Environ. Sci. 1321 012001
The Tuntang Watershed is an important watershed in Central Java. Management of watersheds in the Tuntang stream is a priority for various parties to carry out. One of the things that threatens the sustainability of the Tuntang watershed is erosion. The erosion rate can lead to sediment accumulation and siltation in the Tuntang River reservoir, which can cause catastrophic flooding. Flood disaster mitigation caused by erosion needs to be done, one of which is by calculating the erosion rate per year that occurs in the Tuntang watershed. This study calcultated the predicted erosion rate (per year in the Tuntang watershed) using the Revised Universal Soil Loss Equation (RUSLE) method, processed using the Google Earth Engine (GEE). Google offers a cloud-storage technology called GEE. Programming in JavaScript is required to operate GEE. GEE is a petabyte-scale data-based tool that can be used to analyze and archive geospatial data that is open source. The computing environment is designed for the processing of geospatial data, including the depiction of spatial analysis of satellite imagery. Data for RUSLE is obtained from the database in GEE, and the results can be imaged on a map. According to the study's findings, the degree of soil erosion throughout the Tuntang Watershed was essentially constant, with Moderate erosion predominating in the majority of locations. Senjoyo Sub Watershed, Rowopening Sub Watershed, and Tuntang Hilir Sub Watershed are the primary locations with severe erosion. Rowopening Sub Watershed is the region that is the worst.
Hasti Widyasamratri et al 2024 IOP Conf. Ser.: Earth Environ. Sci. 1321 012002
Rembang regency, Central Java Province, where annually facing drought is laid in the northern part of Java coastal area. Geographically, Rembang has various typical of landscape where affects to the water availability. There are three main problems in Rembang for water management issues, lack of quantity, quality, and continuity. To identify the water availability in order to measure the water quantity and continuity, initial research to detect the surface water in river network was carried out by applied topographic wetness index (TWI) from remote sensing, ground checked observation and focus group discussion (FGD) to find out the existing situation. The result showed, TWI was successful to detect the surface water availability in Rembang regency catchment area from its range number. Those numbers indicate the potential of surface water in focus area although the water quantity is unstable.
M F R Hasan et al 2024 IOP Conf. Ser.: Earth Environ. Sci. 1321 012003
The existence of faults can trigger various geological natural disasters because faults will react when an earthquake occurs and volcanic activity occurs, causing effects in the form of landslides, subsidence, ground movements, and other geological disasters. This research aims to analyze the existence and impact of local faults on geological disasters around the research location using GGMPlus data. A derivative filter is used to get FHD and SVD maps based on the gravity anomaly map. Fault analysis was carried out using a graph from the FHD and SVD map incisions, which were then correlated with each other. The incision graph of the meeting point between the maximum FHD value and the zero SVD value will be interpreted as a fault structure. The results show that there were several fault indication points; these points were then drawn straight lines to get the lineaments of the faults. The fault lineaments with the location of the landslide and subsidence events are correlated so that it becomes evident that the subsidence and landslide disaster in the Brau Hamlet, Batu City, area can be associated with local faults. Based on several previous research on determining faults in coastal areas, it is known that the areas crossed by the Palu-Koro fault have experienced many disasters, such as landslides, land movement and liquefaction. The existence of local faults in an area can increase the impact of damage when natural disasters such as earthquakes and landslides occur.