Role Of Kunapa Jala For The Overall Enhancement And Growth Of Prishnaparni

Vrikshayurveda is a traditional branch of botany that studies plant growth and development. This science mostly recommends using Kunapa jala and Pancha gavya to increase crop output. This idea is around using organic farming to grow plants effectively. Kunapajala, is an organic liquid manure that is a by-product of fermentation and serves as a source of plant nutrients, was stated by Vrikshayurveda. The two main forms of Kunapajala used in practises are herbal and non-herbal, and both are made in accordance with the steps outlined in Vrikshayurvedha. Given its significance, we designed a study to examine the contribution of the Vrikshayurvedha idea to the evolution of medicinal plants; Prishniparni. Present study evaluated role of Kunapajala in the growth and % yield of plant Prishniparni. This study observed that Kunapajala treatment provides best response with respect to root yield and soil physico-chemical parameters. The yield of plant improved quantitatively as well as qualitatively after the use of Kunapajala

Hitting time in Erlang loss systems with moving boundaries

When the boundary—the total number of servers—in an Erlang loss system is a function of time, customers may also be lost due to boundary variations. On condition that these customers are selected independently of their history, we solve for the hitting-time distribution and transient distribution of busy servers. We derive concise asymptotic expressions in the time domain for normal loads in the heavy-traffic limit, i.e., when the offered load ρ is high, and the number of servers scales as ρ+O(√ρ). The solutions are computationally efficient, and simulations confirm the theoretical results.TH

Impedance Response and Dielectric Relaxation in Liquid-Phase Sintered Zn2SnO4-SnO2 Ceramics

Impedance/admittance and dielectric spectroscopy were used to investigate the effect of temperature on the electrical response of liquid-phase sintered Zn2SnO4-SnO2 ceramics. The measurements were performed over a wide frequency range (100 Hz to 10 MHz) at different temperatures. The real and the imaginary part of the complex impedance traced semicircles in the complex plane. The resistance and the capacitance of bulk and grain-boundary regions were determined by modeling the experimental results using several equivalent circuits taking into account bulk deep trap states. Admittance complex diagrams were also determined in order to understand better the conduction mechanisms occurring in the polycrystalline Zn2SnO4-SnO2 system