Foreign Capital, Political Instability and Financial Performance of Pakistan

Political Instability is one of the most important factor in the development of the country. To check the development of the country one must check the political instability of that country. I defined political instability is somehow the “the prosperity of government clash”. While going through different literature done on the political instability. Study showed that political instability and growth goes hand in hand. They both affect each other respectively. This study showed that investors are attracted only when there is stable environment for the business market. One variable is directed for future research that is corruption. In concluding the article it is concluded that political inability leads towards low growth of the country and similarly vice versa

Revolutionizing Agriculture: Nano Fertilizers for Sustainable Crop Improvement

The abundant metalloid element silicon (Si) is present in the crust of the Earth and is important for improving many aspects of plant characteristics. The potential of silicon in agriculture is examined in this article with particular attention to how it affects crop improvement, stress management, and plant growth. Under certain pH circumstances, plant roots absorb orthosilicic acid, the form of silicon that is accessible to plants in soil. The benefits of Si application, including improved vegetative growth, development, and resistance to biotic and abiotic stress, have been demonstrated by numerous studies. Additionally, silica plays a role in decreased transpiration, enhanced photosynthesis, and UV-B radiation protection. Agricultural crops encounter a multitude of difficulties, such as pathogens, pests, drought, flooding, salinity, and metal toxicity, which are frequently intensified by inadequate silicon availability in soils. To remedy this deficiency, si fertilizers are used, which improves plant function. It is further important to fertilize with Si because certain crops actively accumulate Si in their tissues. Applications of Si take into account the fertility of the soil, the amount of moisture present, and the uptake of nutrients, resulting in enhanced growth, productivity, and resilience to stress. Si increases stem strength, stress tolerance, and lodging resistance, for instance, in rice. Moreover, silica boosts water use efficiency in drought-stricken maize and modifies proline levels in upland rice in response to water restrictions. Eventually, Si-based compounds have a great deal of promise to improve crop yield and solve the problems facing contemporary agriculture. The numerous advantages of applying Si in supporting resilient and sustainable agriculture are highlighted in this review

Peer Assisted Learning; The Perspective of Peer Tutors

Objective: To determine the perspective of PAL tutors regarding the effectiveness of PAL in promoting knowledge and skills among the undergraduate students using small group discussions in an integrated module. Methodology:  A prospective qualitative method study was conducted at Rawal Dental College, Islamabad, from April to June, 2021, for 12 weeks. Students from the second year of BDS (n = 50) were divided into five small groups. Five students’ volunteers were chosen from those who completed the previous units with more than 80% summative assessment score and with good communication skills. The group discussion centered on the application of core knowledge and skills in pathology. Responses from the tutors for the qualitative data were obtained using in depth one-on-one semi-structured interviews with audio recorded. The verbatim in the form of audio and notes were transcribed, and the qualitative analysis was performed by two independent investigators, generating codes, themes, and subthemes. Results: The results showed the comprehensive understanding of the insights of tutors and the motivational elements for achieving academic goals and improving teamwork and teaching skills. Many factors encouraged their participation as tutors, including the acquisition of knowledge and leadership skills. The students felt that their compassionate attitude encouraged active participation by the fellow students, increasing their confidence and learning. The students perceived that they had attained essential attributes that would benefit them in professional life in the future. Conclusion: The students enjoyed the Peer-assisted learning experience and recognized its importance for their academic and professional development. While learning in a relaxed environment, the students achieved their basic learning goals, developed leadership skills, improved communication skills, and gained confidence. Keywords: Peer Group, Integrated curriculum, Near-Peer tutoring.

CellSecure: Securing Image Data in Industrial Internet-of-Things via Cellular Automata and Chaos-Based Encryption

In the era of Industrial IoT (IIoT) and Industry 4.0, ensuring secure data transmission has become a critical concern. Among other data types, images are widely transmitted and utilized across various IIoT applications, ranging from sensor-generated visual data and real-time remote monitoring to quality control in production lines. The encryption of these images is essential for maintaining operational integrity, data confidentiality, and seamless integration with analytics platforms. This paper addresses these critical concerns by proposing a robust image encryption algorithm tailored for IIoT and Cyber-Physical Systems (CPS). The algorithm combines Rule-30 cellular automata with chaotic scrambling and substitution. The Rule 30 cellular automata serves as an efficient mechanism for generating pseudo-random sequences that enable fast encryption and decryption cycles suitable for real-time sensor data in industrial settings. Most importantly, it induces non-linearity in the encryption algorithm. Furthermore, to increase the chaotic range and keyspace of the algorithm, which is vital for security in distributed industrial networks, a hybrid chaotic map, i.e., logistic-sine map is utilized. Extensive security analysis has been carried out to validate the efficacy of the proposed algorithm. Results indicate that our algorithm achieves close-to-ideal values, with an entropy of 7.99 and a correlation of 0.002. This enhances the algorithm's resilience against potential cyber-attacks in the industrial domain

Infección con Sarcoptes scabiei (Acari: Sarcoptidae) en conejos (Oryctolagus cuniculus): estudio de caso.

A partir de una sospecha de sarna sarcóptica en tres de cinco conejos albinos europeos (Oryctolagus cuniculus), mantenidos con fines experimentales, se hizo un examen general que reveló áreas multifocales de alopecia alrededor de los ojos, las fosas nasales y los labios. Se procesaron cortes de piel y un análisis de PCR con el objeto de identificar los ácaros. La histopatología de los cortes de piel mostró epidermis erupcionada y estrato córneo con una infiltración de células inflamatorias. El raspado o frotis de piel reveló la presencia de ácaros tanto en adultos como en huevos. Al examen microscópico, los ácaros adultos fueron identificados como Sarcoptes (S.) scabiei (Acari: Sarcoptidae). El análisis de muestras de los tres casos por PCR reveló una banda de 311 pb confirmando la infestación de S. scabiei en los conejos. La infección en conejos con S. scabiei puede representar un problema de salud pública de transmisión indirecta debida a la manipulación de conejos infestados. Hasta la presente, este es el primer reporte de infección por S. scabiei en conejos de Pakistán

Friction and wear performance evaluation of bio-lubricants and DLC coatings on cam/tappet interface of internal combustion engines

The environmental concerns associated with artificially formulated engine oils have forced a shift towards bio-based lubricants. The deposition of hard coatings on engine components and migrating to environmentally friendly green lubricants can help in this regard. Chemically modified forms of vegetable oils, with better low-temperature characteristics and enhanced thermo-oxidative stability, are suitable substitutes to conventional lubricant base oils. The research presented in this manuscript was undertaken to experimentally investigate the wear and friction performance of a possible future generation of an environmentally friendly bio-based lubricant as a potential replacement for conventional engine lubricants. In order to quantify the tribological benefits which can be gained by the deposition of DLC coatings, (an (a-C:H) hydrogenated DLC coating and an (a-C:H:W) tungsten-doped DLC coating) were applied on the cam/tappet interface of a direct acting valve train assembly of an internal combustion engine. The tribological correlation between DLC-coated engine components, lubricant base oils and lubricant additives have been thoroughly investigated in this study using actual engine operating conditions. Two additive-free base oils (polyalphaolefines (PAO) and chemically-modified palm oil (TMP)) and two multi-additive-containing lubricants were used in this investigation. Real-time drive torque was measured to determine the friction force, detailed post-test analysis was performed, which involved the use of a specialized jig to measure camlobe wear. An optical profilometer was used to measure the wear on the tappet, high-resolution scanning electron microscopy was employed to study the wear mechanism and energy-dispersive X-ray spectroscopy was performed on the tested samples to qualitatively access the degradation of the coating. When using additive-free TMP, a low friction coefficient was observed for the cam/tappet interface. The presence of additives further improved the friction characteristics of TMP, resulting in reduced average friction torque values. A tremendous enhancement in wear performance was recorded with a-C:H-coated parts and the coating was able to withstand the test conditions with little or no delamination

Optimizing the Performance of Data Warehouse by Query Cache Mechanism

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Paclobutrazol Improves Sesame Yield by Increasing Dry Matter Accumulation and Reducing Seed Shattering Under Rainfed Conditions

Several biotic and abiotic stresses significantly decrease the biomass accumulation and seed yield of sesame crops under rainfed areas. However, plant growth regulators (such as Paclobutrazol) can improve the total dry matter and seed production of the sesame crop. The effects of the paclobutrazol application on dry matter accumulation and seed yield had not been studied before in sesame under rainfed conditions. Therefore, a two-year field study during 2018 and 2019 was conducted with key objectives to assess the impacts of paclobutrazol on leaf greenness, leaf area, total dry matter production and partitioning, seed shattering, and seed yield of sesame. Two sesame cultivars (TS-5 and TS-3) were treated with four paclobutrazol concentrations (P0 = Control, P1 = 100 mg L-1, P2 = 200 mg L-1, P3 = 300 mg L-1). The experiment was executed in RCBD-factorial design with three replications. Compared with P0, treatment P3 improved the leaf greenness of sesame by 17%, 38%, and 60% at 45, 85, and 125 days after sowing, respectively. However, P3 treatment decreased the leaf area of sesame by 14% and 20% at 45 and 85 days after sowing than P0, respectively. Compared with P0, treatment P3 increased the leaf area by 46% at 125 days after sowing. On average, treatment P3 also improved the total biomass production by 21% and partitioning in roots, stems, leaves, capsules, and seeds by 23%, 19%, 23%, 22%, and 40%, respectively, in the whole growing seasons as compared to P0. Moreover, under P3 treatment, sesame attained the highest seed yield and lowest seed shattering by 27% and 30%, respectively, compared to P0. This study indicated that by applying the paclobutrazol concentration at the rate of 300 mg L-1 in sesame, the leaf greenness, leaf areas, biomass accumulation, partitioning, seed yield, and shatter resistance could be improved. Thus, the optimum paclobutrazol level could enhance the dry matter accumulation and seed production capacity of sesame by decreasing shattering losses under rainfed conditions

Parametric analysis of turning HSLA steel under minimum quantity lubrication (MQL) and nanofluids-based minimum quantity lubrication (NF-MQL) : a concept of one-step sustainable machining

Abstract: The requirement of cost-effective and ecological production systems is crucial in the competitive market. In this regard, the focus is shifted towards sustainable and cleaner machining processes. Besides the clean technologies, effective parametric control is required for machining materials (such as High Strength Low Alloy Steels) specifically designed for high strength applications having superior physio-chemical properties. Therefore, the machinability complexities require optimized solutions to reduce temperature elevation and tooling costs and improve machining of these materials. Complying to the market needs, this research examines the effectiveness of nanofluid on tool life, wear mechanisms, surface roughness (Ra), surface morphology, and material removal rate (MRR) in turning of 30CrMnSiA (HSLA) using minimum quantity lubrication (MQL) and SiO2-H2O nanofluids (NF-MQL). A systematic investigation based on physical phenomena involved is carried out considering four process parameters (cutting speed (VC), feed rate (Fr), depth of cut (DOC), and mode of lubrication for machining. Fr is found as the vital parameter for surface roughness while MRR is highly influenced by DOC regardless of lubrication approach. One-step sustainability technique is applied, in which process variables used for roughing conditions are analogous to attain surface comparable to finished machining without compromising process efficiency and demonstrate its feasibility through optimal settings under NF-MQL. Multi-response optimization proved the NF-MQL machining condition as the best alternative which result in 28.34% and 5.09% improvements for surface roughness and MRR, respectively. Moreover, the use of SiO2 is recommended over MQL due to lower energy consumption, low tool wear, and better surface integrity, sustainable liquid, and related costs