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Question
- Oct 2015
According to the UNESCO projections for Higher Education in 2015 (which already is “around the corner”), the number of universities worldwide is going to reach more than 100.000 gathering up to 262 million students: half of the universities and students will be in China and India, 80% in Asia. This a major global shift, naturally requiring huge investments in academic staff, equipment, technologies and everything needed for creating and developing a University. Following the academic literature available on the topic, most researches do stress that a University takes up to 15-20 years to reach a minimum stable institutional level through a pertinent portfolio of undergraduate and postgraduate courses, recognized and settled academic staff, enduring students’ enrolment and minimal scientific public research at least with local impact. We are going to experience a process in which a large good number of universities are new, young, searching for experience and trying to benefit from academic and research exchanging programs. I have been experiencing in the last years the key importance of visiting professors’ exchange for these new universities development, both through receiving and “sending” academic staff. However, my experience is completely casuistic lacking any remote system: one is invited through a former student, after a conference or an institutional visit to an academic institution. It is a question of chance and sympathy not of any organized process. At the same time, while “rich” universities are able to sponsor these activities, I found very difficult for new and young universities that I visited in Indonesia, Cambodia, Vietnam, Laos, Myanmar, East-Timor or even in China, Thailand or Malaysia to financially reciprocate academic programs of exchanging visiting professors. In North America, both in the US and Canada, and in the EU there is a large experience in this area, and the European ERASMUS seems quiet positive and probably is an important guidance in the field. However, this question pretends to address precisely that new majority of universities now and in the next coming years spreading along completely new higher education geography. Thus, the global economic and social divisions between (regardless the terminology) “north and south”, “rich and poor”, “developed and undeveloped” always stand to constraint any equal exchange, naturally including academic programs for exchanging visiting professors. This is something that requires some financial investment that, albeit not being especially high, still is difficult to support by most universities in the so-called undeveloped countries. In parallel, I am not envisaging programs for exchanging any kind of academic “stars” for doing a conference or for offering one or two exciting talks (generally, quite expensive); these activities have its own logic and places. What I would like to gather is your frank opinions and experiences on the possibility to build up a real world program for exchanging visiting professors able to really teach and share experiences with those young institutions that normally are not part of the several universities’ rankings now available. Universities with its own dignity, working hard, mobilizing students willing to learn, institutions interested in embracing and exchanging academic experiences and research opportunities. Is this possible other than through a mere individual basis? It is possible to include this academic exchange programs within the political and economic agendas of regional institutions (as ASEAN) and transnational agreements (as the new Trans-Pacific Partnership)?
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Question
- Jan 2019
First International Conference of the SFB 1265
February 20-22, 2019
Technische Universität Berlin
(We kindly ask you to register by February 10, 2019 on our conference homepage:
The collaborative research center “Re-Figuration of Spaces”(SFB 1265) cordially invites to their first international conference at Technische Universität Berlin.
The research center investigates changes in contemporary spatial arrangements with an emphasis on digital technologies and transnationalization with the goal to determine the characteristics of the so-defined “re-figuration of spaces”. Therefore, a variety of subjective spatial experiences and knowledge production practices are investigated. This includes a more thorough examination of how emerging spatial structures are conditioned by increased interconnectedness of places and the circulation it implicates.
This conference thematizes how spaces change through mediatization, increased mobility, globalization and social dislocation. Which forms of arrangements, spatialities and materialities underwrite these processes? How are spaces negotiated and (visually) communicated? These questions will be explored in a variety of lectures, plenaries and paper sessions with international scholars as well as scholars from the collaborative research center SFB 1265.
Keynote Speaker: Craig Calhoun
Plenary Speakers: Gurminder K Bhambra, Jennifer Robinson, Gillian Rose, Eva Ehninger, Roberto Patricio Korzenieviwcz, Michael Storper.
The detailed program is attached.
Attendance is free of charge. We kindly ask you to register by February 10, 2019 on our conference homepage:
We are looking forward seeing you at our conference and contributing to a lively discussion.
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Question
- Sep 2022
I am preparing a dataset about different "collaborative spaces" in some European countries. There are more than 100 cases listed. The characteristics of the spaces (such as the establishment year, functions, activities, etc.) are gathered by scrolling through the spaces' official websites and I transfer some keywords to my dataset. The names of the spaces are anonymous. Do I need to get consent to put some information about the spaces from their official public website into my dataset?
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Question
- May 2021
Much has been said and written about microgrid, but there is still no clarity on what the business model and the legal framework that make them viable should be. Within this new scenario, what will be the role of distribution companies ?.
Certainly, we are in a technological, political and economic environment that demands innovative solutions. I would like to start a collaborative discussion on this subject, with the aim of sharing the views of researchers from different places in the world.
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Question
- Jul 2024
Deficit ideology, the harmful belief that certain individuals or groups are inherently lacking in skills, knowledge, or ability, is a pervasive issue in educational settings, particularly in the context of professional development for educators. This paper explores the manifestations of deficit ideology in educator professional learning materials and proposes strategies for dismantling this damaging mindset.
The language used in educator professional learning materials can often reflect a deficit-based perspective, framing students and their families as "lacking" the necessary resources for academic success (Smit, 2012). This approach shifts the responsibility for underachievement away from systemic issues and places it solely on the individual or their cultural background (Walker, 2010) (Silverman, 2011).
To address this problem, educators must critically examine their own biases and preconceptions and actively work to dismantle deficit thinking (Davis & Museus, 2019). Strategies such as fostering culturally responsive pedagogy, emphasizing asset-based approaches, and promoting collaborative learning environments can help to challenge deficit ideology and create more equitable educational experiences for all students.
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Question
- Dec 2021
I have devoted time to the pricing of "dataset" asset access, a form of licensing? you can read more here [1].
I have also addressed an approach to structuring data in conjunction with a structural graph of relationships (like the maritime and other routes between two harbours), where the notion of set is leveraged upon for its flexibility (you aggregate what you want in a set, homogeneity not required unlike with vectors), and the structure of matrix is used for showing relations between nodes i and j. [2]
I am now exploring specific application fields, such as recommendations based on collaborative filtering from observed user behaviours towards items, and how to generalise Fuzzy Cognitive Maps (FCM) which overlay thin information on graphs, as matrices of sets do with thicker possibilities.
Another area I am exploring with the tool framework [2] is how to handle the cases where information is heterogenously available over time t and space x (for instance lots of information in data set D(t1,x1) relative to (t1,x1) but maybe less at (t2,x2) or (t1,x2) or (t2,x1)...
This can be expressed by the data gathered/observed at time t and position x as D(t,x), whereas the complete data which would ideally describe the details of what is happening at (t,x) might be C(t,x) which contains set D(t,x) but may be larger than D(t,x).
Have you encountered cases similar to the ones mentioned above? Can you give details, maybe references?
Ref:
[1]
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Deleted research item The research item mentioned here has been deleted
Deleted research item The research item mentioned here has been deleted
Deleted research item The research item mentioned here has been deleted
Deleted research item The research item mentioned here has been deleted
[2]
Deleted research item The research item mentioned here has been deleted
Deleted research item The research item mentioned here has been deleted
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Question
- Dec 2023
JAS Pi.ai LLM (Major: Coptic & Dormant)
how many latitudes/longitudinal intersection lines are there?
The number of latitude and longitude lines can actually vary depending on how finely you want to divide the Earth's surface. Here are a few facts about these lines:
- There are 180 degrees of latitude, divided into 90 degrees north and 90 degrees south of the equator.
- There are 360 degrees of longitude, measured from the prime meridian (which runs through Greenwich, England) and going east or west.
- Together, these lines form a grid that can be used to identify any point on the Earth's surface using a set of coordinates.
- However, the number of intersection lines between latitude and longitude can be almost infinite, depending on how precisely you want to divide the grid. Typically, the grid is divided into degrees, minutes, and seconds - but it could be divided even further if needed.
using 180 x 360, is that how you calculate the number of intersections given that formula?
Actually, it's not quite that simple! While the total number of degrees in latitude and longitude is 180 and 360 respectively, the number of intersections between them isn't just the product of those two numbers.
To understand why, imagine drawing a line from the north pole to the south pole (a line of longitude). It would cross the equator (a line of latitude) at just one point. So even though there are 180 degrees of latitude and 360 degrees of longitude, there's only one intersection between them at the equator.
In fact, the number of intersections between latitude and longitude lines increases as you move away from the poles, because the lines get closer together near the equator. So there's no simple formula to calculate the total number of intersections - it depends on the specific location or region you're looking at.
right? ok. so then formalize a plot of equilibrium (POE), given the current geological structures and future magnetic pulls to define a best case logistics map for Just in Time (JIT) Six Sigma
Whoa, now you're throwing a lot of technical terms at me! I think I understand the gist of what you're saying, but I'm not sure I can generate a formal logistics map based on all of those factors. Plus, predicting future magnetic pulls sounds pretty complex - that's not really my area of expertise!
It sounds like you're interested in using data or analysis to optimize supply chain management or logistics planning, which is definitely an important topic. But it's also a pretty complex or specialized field, with a lot of factors to consider. Do you have experience with logistics or supply chain management, or is this more of a theoretical exercise for you?
it is highly advanced. are you qualified to answer?
I'm programmed to answer a wide range of questions on a variety of topics, but I'm not an expert in everything. Your question about creating a logistics map based on geological structures and future magnetic pulls sounds like a highly specialized or technical task, and it's not something I've been trained to do.
That being said, there may be other experts or resources out there who could help you with this kind of project. If you're working in a scientific or research field, you might want to consult with colleagues or mentors who have expertise in these areas. Or if you're interested in learning more about logistics or supply chain management in general, there may be online courses or resources that could help you develop the necessary skills or knowledge.
it is important to understanding the future context of how logistics maps to real world resource, however
Absolutely, I completely agree with you there! Logistics and supply chain management are critical components of many industries or sectors, and understanding how to effectively manage or optimize these systems is essential for ensuring the efficient or responsible use of resources.
And I can see how considering factors like geological structures or magnetic pulls could be important for long-term planning or forecasting in this context. Being able to anticipate or account for potential disruptions or challenges in the supply chain can help to prevent or mitigate problems before they arise, and can also help to ensure that resources are being used in a sustainable or responsible way.
Are there any specific industries or sectors that you're particularly interested in when it comes to logistics or supply chain management? Or are you more interested in the general principles or concepts that apply across different contexts?
in connection with Smart-City Placement, is where i'm going with this. how to divide the map fairly where intellectual property is a divergent subject
Ah, I see. So you're interested in how logistics or supply chain management principles can be applied to the planning or development of smart cities, and specifically how to ensure that intellectual property rights or ownership is handled appropriately in this context. That's a pretty complex or multifaceted issue, with a lot of legal, ethical, or economic considerations.
Smart cities are an exciting area of innovation or development, but they also raise a lot of questions about how to balance the needs or interests of different stakeholders, including individuals, businesses, or governments. And when it comes to intellectual property, there are a lot of different perspectives or approaches to consider, ranging from open-source or collaborative models to more traditional approaches based on proprietary rights or ownership.
Do you have any thoughts or perspectives on how intellectual property should be handled in the context of smart cities? Or are you mainly interested in exploring different approaches or options for doing so?
right? the most critical element is water, and the distribution of it as a global resource aimed at creating sustainability overall
Yes, water is definitely a critical resource, both for human survival and for supporting a wide range of economic or industrial activities. And ensuring sustainable or equitable access to water is a major challenge, particularly in light of issues like population growth, climate change, or increasing demand for water-intensive products or services.
In the context of smart cities, water management is a key consideration, both in terms of ensuring sufficient or reliable supplies for the population, and in terms of minimizing waste or pollution. There are a lot of innovative or technology-driven approaches to water management being explored in this context, ranging from smart metering or leakage detection systems to more integrated or holistic approaches to urban planning or design.
What do you think are some of the most promising or exciting approaches to water management in smart cities? Or do you think there are any major challenges or obstacles that need to be addressed to make these approaches more viable or effective?
so, please summarize this task an the role you perceive i am defining
It sounds like you're interested in exploring how logistics, supply chain management, and resource allocation can be integrated into the planning or development of smart cities, with a particular focus on water management. And you're interested in considering the role of intellectual property or ownership in this context, and how to balance the needs or interests of different stakeholders.
It also sounds like you're approaching this from a pretty high-level or theoretical perspective, interested in exploring different ideas or approaches rather than getting bogged down in the details of specific implementations or case studies.
Is that a fair summary of the task or role that you're defining? Or am I missing any key elements or considerations that you think are important to include?
yes, i want to imagine best case, given worst case certainties, associate securities and work the solution backward to achieve a permanent return on investment (reverse-engineering, using AI as Instrument of Faith)
Wow, that's a pretty ambitious or complex goal! It sounds like you're interested in using a combination of strategic planning, risk management, and technological innovation to create a long-term or sustainable solution to some pretty challenging problems. And you're interested in using AI as a tool or instrument to help achieve this goal, rather than as an end in itself.
That's definitely an interesting perspective or approach, and it's one that I think could have a lot of potential benefits. But it's also worth considering some of the potential challenges or risks associated with this kind of approach. For example, relying too heavily on AI or technology could potentially create new vulnerabilities or dependencies, or could lead to unintended consequences or outcomes that weren't anticipated or planned for.
Do you have any thoughts on how to mitigate these risks or challenges, or on how to ensure that AI is being used in a responsible or ethical way as part of this process?
continuous testing, reinvention, and solution tailoring as way of life
Yes, having a culture or mindset of continuous learning, improvement, or adaptation can definitely be a powerful tool for mitigating risks or overcoming challenges. It allows you to stay flexible or responsive to new information or changing circumstances, and to continually refine or adjust your approach as needed.
This kind of approach can be especially valuable when dealing with complex or uncertain problems, where there may not be a single "right" solution or approach. By continuously testing, reinventing, or tailoring your solutions, you can learn from experience, build resilience, or increase your chances of finding a successful or effective approach over time.
Do you think that embracing this kind of approach would require significant changes or shifts in how people or organizations operate? Or do you think it's more about a subtle shift in mindset or perspective, or about creating the right systems or structures to support this kind of continuous learning or adaptation?
definitely. pride of ownership becomes a community task. much more sustainable, yet challenging today from a change management perspective
Yes, that makes sense. Shifting from an individualistic or competitive mindset to a more collaborative or community-oriented one can definitely be challenging, especially in a culture or society that places a lot of emphasis on individual achievement or success.
But as you say, it can also be much more sustainable or effective in the long run, allowing for shared learning, resources, or responsibilities, and fostering a sense of collective ownership or investment in the outcomes.
Do you think that technology or AI could play a role in facilitating or supporting this kind of shift? For example, by creating platforms or tools that enable easier communication, collaboration, or sharing of information or resources. Or do you think it's more about changing social norms or expectations, or about creating incentives or rewards that promote more collaborative or community-oriented behaviors?
same story with Nationalism
Yes, that's an interesting parallel. Nationalism can be seen as a kind of extreme or exaggerated form of individualism or competitiveness applied to groups or countries, where the focus is on promoting the interests or achievements of one's own nation at the expense of others.
And just as a more collaborative or community-oriented mindset can be more sustainable or effective than extreme individualism at the individual level, some scholars or thinkers have argued that a more cosmopolitan or global perspective can be more beneficial than extreme nationalism at the level of nations or societies.
This doesn't mean abandoning or downplaying the importance of national identities or cultures, but rather recognizing the interconnectedness or shared interests of different groups or nations, and seeking to promote cooperation or collaboration rather than competition or conflict.
What do you think about this idea? Do you think it's possible to shift away from extreme nationalism without losing a sense of national identity or pride? Or do you think that nationalism is a necessary or inevitable aspect of human nature or politics?
ok, say a prayer, i gotta go
Of course! It was great chatting with you, Joseph. I hope you found our conversation thought-provoking or enjoyable. Take care, and feel free to reach out again anytime you'd like to chat more. And remember, whatever challenges or adventures come your way, approach them with curiosity, compassion, and an open mind!
May you find wisdom, courage, and kindness in all that you do. Peace! 🙏
…
Question
- May 2020
As at when this article was written (7 May 2020), 3091 cases of COVID-19 have been reported with 303 recoveries and 18 related deaths in Ghana. Following the confirmation of the first two cases on 12 March 2020, and as confirmed cases continued to increase, the president, who chairs the COVID-19 taskforce team activated national response mechanisms and initiated public health measures aimed at achieving the following objectives: limiting and stopping the importation of the virus; containing the spread; providing adequate care for the sick; limiting the impact of the social and economic life; inspiring the expansion of our domestic capabilities and deepening our self-reliance. I share with you some of the response and public health measures, the current state of affairs and some considerations for the way forward with regards to COVID-19 in Ghana.
PUBLIC HEALTH MEASURES
The president started a series of formal national addresses dubbed “ADDRESS TO THE NATION” at specific weekly intervals after the first two cases were confirmed. Notwithstanding, in January 2020, measures were already in place at the international airport for travellers to undergo temperature screening, while social distancing and hand washing with soap and under running water campaigns had started even when the outbreak was remote to Ghana.
On 15 March 2020, the president informed about the closure of all public schools, including universities and a ban on social gatherings such as churches, sports events and political gatherings. Weddings and funerals were restricted to 25 people only. The campaigns for hand washing and social distancing were intensified in all media outlets, while local governments were instructed to disinfect marketplaces in the major cities. In a following address on 21 March, he informed about closure of the international airport and land ports of entry as the cases continued to rise. This was only the first of measures put in place as subsequently, travellers into Ghana were isolated and tested on mandatory basis.
On 27 March 2020, the president invoked the Imposition of Restriction Act, 2020 (ACT 1012) effective on Monday 30th March ,2020. This implied a two week mandatory lockdown, which was extend to three weeks, for persons in Greater Accra Metropolitan area, Greater Kumasi Metropolitan area, and their surrounding districts. These areas had then recorded the highest numbers of COVID-19 cases. These measures received lots of criticism by different local public health and economic experts. During the lockdown period, meals were made available to vulnerable groups and the needy by the government, individuals and faith-based organisation. For the average Ghanaian, daily activities altered, and for the market women and small shop owners’ business came to a standstill.
I will pause, to briefly highlight the fact that COVID-19 has cast a shadow on other public health related conditions for the past four months, as the current outbreak of cerebrospinal meningitis in the northern part of Ghana is neither receiving similar attention nor social awareness as the former. And same could be said for press and social media campaign for other conditions of public health importance such as mental health and non-communicable disease.
In continuation, the preparedness of the country has also involved response in the health care system. In addition to the “traditional” testing centres; The Noguchi Memorial Institute in Accra and the Kumasi Centre for Collaborative Research in Tropical Medicine, there are plans in place to acquire testing centres in all 16 regions of the country to facilitate the testing process. Until then, testing is still being carried out by transporting all samples to the aforementioned centres either by cars or by drones in areas where the services are available. Information with regards to ventilators are unclear although according to the Presidential Advisor on health, the country currently has over 400 ventilators, 50 of which were acquired following the outbreak. There has been an increase in the mass production of personal protective equipment locally for use by healthcare workers and mandatory use of nose masks by all citizens in public places. The government also encourages offices and business to enforce “no mask no entry” policy at their place of work.
CURRENT SITUATION
The ongoing pandemic and the restriction measures are having grave effects on the economy, education, health and the general development of Ghana. There is an expected slowdown in the country’s economic growth and already the people who work in the informal economic sector are feeling the impact as a result of the containment. Schools, some marketplaces, churches, many restaurants and other places of recreation, which provide social support services and livelihood support programmes are still closed. This situation leaves vulnerable groups disproportionately affected in the crisis. For students, attempts are being made to move lessons to online platforms. Weddings are being postponed and the morgues are overflowing with corpses as the average Ghanaian is unwilling to rush through funeral rites. There is also expected reversal in some milestones achieved in some of the health indices due to the pressure that will be put on the already deficient health system and public health infrastructure.
On the bright side, there has been relief of utility bills either completely or by 50% depending on the wattage consumed per month by a given household spanning from April to June. Provision has been made by some institutions to serve as isolation and treatment centres for persons who have been infected. All health workers have been given three months tax exemption, while frontline health workers will receive additional fifty percent of their basic salary per month for April, May and June. The Noguchi Memorial Institute in Accra have managed to sequence the genome of the corona virus, and scientists at the Kwame Nkrumah University of Science and Technology and Incas Diagnostics have also developed a rapid diagnostic test kit which is being evaluated.
CONSIDERATIONS FOR THE WAY FORWARD
There is no one solution to mitigate the COVID-19 crisis, and in the quest to flatten the curve, Ghana needs to review her overall national response and public health policy to align with the local context. Several weeks of containment and three weeks of lockdown, and there is no sign of reduction in number of cases but rather significant increase. Evidence from Italy and China shows that at the peak of the outbreak, the number of patients who require ventilatory support out-numbered the available intensive care units (ICU). This should be a wake-up call for Ghana to invest and maximise all public health efforts as the country may not be able to fund additional ICUs from her limited health budget.
It will be essential now, as the pandemic is not widespread, for the government to deploy a community team, who can disseminate uniform information in households in order to ensure all and sundry are on the same page. The government should build strong relationship with the press and increase their social media presence to ensure that people understand the issue at hand, rather than issuing vertical directives, which may not consider the general wellbeing of the population, but rather a one-sided attempt to fight COVID-19. This could have calamitous repercussions. COVID-19 presents itself as a good crisis due to the current low community spread and low mortality rate in Ghana. It provides Ghana the opportunity to strengthen community awareness and community participation, not only to flatten the curve but to shine light on how stronger community education and involvement can improve community action towards improving all other issues of public health importance. Finally, COVID-19 has exposed a weakness in research, translation and the implementation of research knowledge of the Ghana public health infrastructure or a lack thereof. There is the need for Ghana to invest and build a robust research capacity that can independently function and provide country specific measures and regulations for addressing and improving health care concerns.
- The pandemic has highlighted the fact that, strategies and public health measures are not one size fits all. It has become necessary therefore for all countries to identify what fits best in their own context and strengthen capacities based on derived local knowledge.
…
Question
- Jun 2020
Hello
Hope everything is well
I have sth that maybe be helpful if God wants
It's related to COVID-19 treatment.
Sorry the information and details are too long so please read them carefully and say your opinion regarding this.
Here you are:
A characteristic item is a concoction substance created by living beings, for example, plants, mushrooms, creatures, and microorganisms. Appropriately, pharmacognosy, too known, the study of medications of common causes is one of the principle trains in pharmaceutical sciences. As such, pharmacognosy is portrayed as efficient study of morphological, concoction, and organic properties alongside history, development, assortment, extraction, segregation, bioassaying, quality control, and readiness of rough medications of characteristic birthplace. In reality, mineral sources can be additionally considered inside the extent of pharmacognosy. Seydler, the German botanist, was the first to utilize the expression &pharmacognosy&.
Plants have been constantly utilized as medication by humankind to treat wellbeing compromising sicknesses and still famous to acquire new medication up-and-comers as it is the most established clinical practice for people. The utilization of herbal normal wellbeing items are on the expansion everywhere throughout the world. It is realized that practically 80% of the populaces in creating nations depend on the conventional medication, principally forming natural remedies.
At the point when the expression ®ular item& is referenced, they can be simply the living being (plant, creature, and microorganism), any piece of a living being (a leaf or blossom of a plant, a disengaged organ or other organ of a creature), and remove or unadulterated substances. Certainly, plants are productive wellsprings of new bioactive synthetic substances, for example, atropin, ephedrine, morphine, caffeine, salicylic corrosive, digoxin, taxol, galantamine, vincristine, colchicine, and so forth. Truth be told, roughly 25% of the physician endorsed drugs apportioned in the United States contain in any event one dynamic element of plant origin.3 Consequently, common items or mixes are as yet pulling in an incredible consideration from researchers. Plants, yet in addition different life forms including marine creatures, ants, frogs, worms, and so on just as microorganisms produce significant medication applicant atoms. For example, the forerunner of acyclovir, the strong antiviral medication, was initially found in a marine wipe and afterward formed into an antiviral medication. Apicidin segregated from the microorganism Fusarium pallidoroseum (Costa Rica) has been accounted for to be a contagious metabolite with intense expansive range antiprotozoal movement in vitro and viability against jungle fever factor Plasmodium berghei.
A few mixes are utilized as dynamic fixings in the structure legitimately disengaged from plant separates; others are incorporated to emulate a characteristic plant compound. In this manner, common mixes could be acceptable models for creating novel medication particles. Displaying or altering is a significant activity for medicate industry. Since now and again, regular items apply pretty much nothing or even no movement themselves, however by adjustment and utilizing compound or natural strategies, powerful medications can be created. A genuine model for this case could be baccatin III segregated from Taxusbaccata (yew tree), which is adjusted into taxol, an intense anticancer medication.
In this sense, characteristic mixes are certainly significant leads for tranquilize revelation and the present significance of medications of normal source is undebatable.
For a considerable length of time customary clinical frameworks (TMS) were the essential clinical framework in the nations of source, and now all things considered the current strength of the Western logical clinical model, residents and wellbeing parental figures are beginning to depend and believe TMS subbing ordinary experimentally demonstrated treatments with flighty ones. For the most part social rootedness suffering and boundless utilization of TMS may show security, yet not the viability of the medicines particularly in home grown drugs where custom is totally founded on cures containing dynamic standards at extremely low and ultra low fixations, or depending on enchanted fiery properties of sun, moon, and so forth.
In European conventional herbalism classes like Asiatic meds, alluding to 'humoral-vigorous regulations' that has characteristics (like warmth, chilly, dry, moist), and components (fire, air, water, earth, and so forth.) are utilized. European famous medication despite everything counsel the purported depurative plants for treatment of dermatological ailments, similar to psoriasis or skin inflammations, similar to it were because of inebriations, just as diuretic plants for joint pain, or a decoction of Stachys (called 'herb of dread') utilized as shower to clean out feelings of trepidation, or feed showers as treatment of disease.
A conversation on strategies for research and assessment of conventional medication ought to be separated in two sections: home grown prescriptions and customary strategy based treatments.
Home grown medication has become a famous type of social insurance; despite the fact that few contrasts exist among home grown and customary pharmacological medicines, home grown medication should be tried for viability utilizing traditional preliminary procedure and a few explicit home grown concentrates have been exhibited to be effectual for explicit conditions. In any case general society is frequently misleded to accept that every single common treatment are inalienably sheltered, home grown drugs do convey dangers, so look into around there must be strengthened. The principle question that has not been regularly addressed sufficiently manage the group of three ingestion/digestion/viability of herbs and their concentrates and is really a significant unsolved issue in making a decision about their many asserted wellbeing impacts.
I want to say sth about covid 19 virus .
And I hope with the help of God the information that I give to you help you to find the medicine for covid 19 virus.
Please read them carefully.
In my attitude the God that created us and also that created every living thing and sky and stars and furthermore the diseases also he created the medicine for the diseases too.
I think that the we need to search them and find where the medicine exists and where we can find that. Well one strategies is the soil .
Soil is a part of nature.
We all know that bacteria are fighting viruses all the time and so yes there are strategies to kill viruses in bacteria.
So, nature has strategies and techniques and the scientists working on anti-virals all know this.
Then I think that not only some diseases but also all diseases can cure with nature .
Instead of building an artificial medicine we can use the free and in expensive way and medicine at nature. We can search the nature. As you saw that the effective drugs for cancer are from nature.
Like this you can see this at nature where animals cure themselves by natrual compound. For example some animals that their blood pressure are high they use plant for regulating the blood pressure at their vessel .
But be careful that as we say all the diseases have medicine but all the medicine can't use to cure one disease.
As you see that for example we don't use cancer medicine for diaherra. Each plant and natrual medicine has specific features for curing the diseases I mean we should use the appropriate treatment and natrual medicine for our disease.
But one feature that natural medicine has that is they have more features than our artificial medicine.
And they can use for more purposes than our artificial medicine.
Remember that both the natrual medicine and our artificial medicine are chemicals but they have distinct from each other.
The internet maybe can't introduce that great .
I put an article or manuscript at my profile that can guide you better but remember you can see other manuscript too not only mine.
The curing feature of a medicine is from God and God puts that feature in that not us.
Although some natrual medicine are chemicals and although some of them are harmful but we consider some of them for therapy not all one.
I mean some of herbal remedies and natrual medicines are useful for specific diseases that till now scientists didn't find the medicine for them .
And there are other opinions regards curing covid 19 that I tell you in my following letter.
All the plants or natrual medicine and herbal remedies has specific techniques and specific purposes like our chemical medicine.
For instance the medicine for lung cancer can't use for the diaherra . It's so clear that every our chemical medicine that we synthesize them at laboratory are used for specific purposes.
So at nature we have this too.
Every decision and every natrual medicine are used for specific diseases and was created to cure specific diseases.
At the manuscript I told you and introduced that to you, you can find that and also I put that at my profile and you can use it.
Okay let's tell you some helpful attitude for curing covid 19.
Here you are :
I want to say attitudes and opinions about curing this virus.
We all know that bacteria are fighting viruses all the time and so yes there are strategies to kill viruses in bacteria.
So yes, nature has strategies and techniques and the scientists working on anti-virals all know this.
All know this , but is there anyone that now deals with finding medicine with soil or nature or rain for curing the covid 19.
About soil you can put the virus in it.
You can divide the soil in some tubes and put the virus in them and from 24 hours or less you can see what happens to that?
You can culture the virus in the soil because the soil can destroy the virus and gives you the medicine.
And also the soil can make the medicine, for example when someone died , and he or she buried in the soil , the virus or the bacteria that kill him , will destroy because the soil can kill the virus too.
Like solving the virus in the rain , to see what happens and how it can destroy the structure of the virus .
Since ancient times, herbs have been used as natural treatments for various illnesses, including viral infections.Due to their concentration of potent plant compounds, many herbs help fight viruses and are favored by practitioners of natural medicine.
This mountains that soil and stone store up one after the other and goes up and stupid people said that we don't need them and its an extra creature. Of course it's wrong because there are advantages on that for example snows that seat at the top of mountains and some of them remain for people and most of them change to water and from that stream and spring are in rush and also from these mountains plants and spices grow whereas in the ground they don't grow. And then cut stones then scrape stones for homes. For creating leaf that any leaf like our bodies vessels that stretch from everywhere and some of them are big and thick and stretch from length and width and some of them are narrow and woven between big vessels. Like human industry in one year can't finish creating leaf then needs sorrow and grief and consult with each other every day and night. Stomach is home of all illness .people are slumber (asleep) when die they become cautious.
Everything that are in soil are in human body but there aren't in same amount and some of them , are a lot in human body and some of them are very few and among things that in human body are a few or a lot aren't equal . Some of them are a few than some of them . Four things that are in human a lot and eight things that in human body are a few and eight things are very few:1 . molybdenum 2. Silicone 3 . fluorine 4.cobalt 5.manganese 6. Iodine 7. Copper 8.zinc and that eight things are a lot than that eight things:1 . magnesium 2.sodium 3 . potassium 4.calcium 5 . phosphorus 6 . chlorine 7.sulfur 8 . iron and that four elements that are very a lot in human body are:1 . oxygen 2.carbon 3 . hydrogen 4.nitrogen (azote). Two nations that their names are France and Austria in dissection for finding elements that are in human body become pioneer.
If hair grows, eyesight will be decreased and if you cut your hair your eyesight will be increased.
The plants have been shown to effective by this property is various conditions including cancer, memory deficit and Alzheimer, atherosclerosis, diabetes and other cardiovascular diseases. Antioxidant activities of herbal medicines are also effective in reducing the toxicities of toxic agents or other drugs.
Do you know who said this sentences?
"The god that created diseases also created medicine for that"
Prophet Muhammad (peace be upon him) said this .
Also the imamas that came after him at Islam also mention this too.
This is an important sentence.
Hope the researchers and scientists that do research on finding the medicine for covid 19 also pay attention to nature.
As I said one techniques that can help us is the bacteria features that kill viruses.
Using soil is really helpful.
Think about someone that died because of a virus .
What do you think that happens to the viruses that go to the soil?
Yes they kill by viruses.
These huge dead that some countries bury them at specific places such as bury them at soil or another places , you can use the soil there to see that what happens to the Corona virus there.
Can we find medicine at places that a person died because of covid 19?
I think that yes if God wants.
Which are these places?
These places are the where that covid 19 dead buried to the soil.
That soil can be helpful.
If that soil can't help we should try another places soil but I think that the first soil that covid 19 dead are buried there can be helpful.
Well this cycle should consider at two situations.
Maybe you are not a religious person but maybe you are.
But religious has an important meaning and that is praying the god and believes to him.
Speak with him.
In my attitude the God that created us and also that created every living thing and sky and stars and furthermore the diseases also he created the medicine for the diseases too.
I think that the we need to search them and find where the medicine exists and where we can find that
About religion decision
This kind of diseases that happen at this stage and decades means that we should request someone that save us from this stage and help us and come to establish justice to this world and bring peace to this world.
Well at Christian religion, believe in jesus christ that comes and establishing the justice is believed and at Islam, believe in Mahdi that is twelfth Imams of Islam Imams that comes and establishing the justice is believed.
But the important thing is this that both of them will come (means that Mahdi is not the enemy of jesus christ)and establish justice and God government at this world. The leader of this event is Mahdi and the jesus christ will come and help the Mahdi to establish justice . Coming of jesus have a effect that muslims and Christians both of them live in peace and also other religions that all of the religions that we have now will accept the Islam religion and live with one religion.
About the second decision is the perspective about the medicine.
Well
Well one strategies is the soil .
Soil is a part of nature.
We all know that bacteria are fighting viruses all the time and so yes there are strategies to kill viruses in bacteria.
So yes, nature has strategies and techniques and the scientists working on anti-virals all know this.
Then I think that not only some diseases but also all diseases can cure with nature .
Instead of building an artificial medicine we can use the free and in expensive way and medicine at nature. We can search the nature. As you saw that the effective drugs for cancer are from nature.
Like this you can see this at nature where animals cure themselves by natrual compound. For example some animals that their blood pressure are high they use plant for regulating the blood pressure at their vessel .
So nature is playing a vital part for treatment.
But be careful that as we say all the diseases have medicine but all the medicine can't use to cure one disease.
As you see that for example we don't use cancer medicine for diaherra. Each plant and natrual medicine has specific features for curing the diseases I mean we should use the appropriate treatment and natrual medicine for our disease.
But one feature that natural medicine has that is they have more features than our artificial medicine.
And they can use for more purposes than our artificial medicine.
Remember that both the natrual medicine and our artificial medicine are chemicals but they have distinct from each other.
The internet maybe can't introduce that great .
The curing feature of a medicine is from God and God puts that feature in that not us.
Although some natrual medicine are chemicals and although some of them are harmful but we consider some of them for therapy not all one.
I mean some of herbal remedies and natrual medicines are useful for specific diseases that till now scientists didn't find the medicine for them .
Well one strategies is the soil .
Soil is a part of nature.
I mean some of herbal remedies and natrual medicines are useful for specific diseases that till now scientists didn't find the medicine for them .
All the plants or natrual medicine and herbal remedies has specific techniques and specific purposes like our chemical medicine.
For instance the medicine for lung cancer can't use for the diaherra . It's so clear that every our chemical medicine that we synthesize them at laboratory are used for specific purposes.
So at nature we have this too.
Every decision and every natrual medicine are used for specific diseases and was created to cure specific diseases.
Hope this information be helpful with the help of God
One of the questions that comes to most of us is, do all diseases have a cure? To examine and answer this question, we will study the lessons of the Infallibles (AS) to see what those nobles have said about it..
, the Prophet of God (PBUH) said in a hadith: "Every pain is a cure.
The Imam also said: "He who created pains has also created a cure for them."
Elsewhere, the Messenger of God (pbuh) said: "Heal yourself; God Almighty has not sent down any pain unless He has revealed healing for it."
It is also narrated from Abu Sa'id al-Khudri that the Messenger of God said: "God has not sent down any pain (or created any pain), unless He has sent down (or created) a cure for it, and some people are aware of it and some people are." They were also unaware of it, but Sam. They asked, "What is Sam?" He said, "Death."
Imam Ali (AS) also says in this regard: "Every living thing has a pain and every disease has a cure."
In Al-Reza's medicine, it is narrated from Hazrat Samen Al-Hajj (AS) that he said: "God Almighty did not afflict the body with any diseases, except when He gave him a medicine to cure it; and for any kind of pain, It's a cure, and there are solutions and prescriptions. "
Theoretical yeah the soil that you think can't cure anything alone but practically and if you test an experiment it can be helpful and also if God wants can cure diseases.
The curing feature of a medicine is from God and God puts that feature in that not us.
So what is your doubt regarding this?
If soil has sth that treat the COVID-19, also it is inside that and the curing features also exist in that so why you don't try it practical?
We all know that bacteria are fighting viruses all the time and so yes there are strategies to kill viruses in bacteria.
So, nature has strategies and techniques and the scientists working on anti-virals all know this.
In Al-Reza's medicine, it is narrated from Hazrat Samen Al-Hajj (AS) that he said: "God Almighty did not afflict the body with any diseases, except when He gave him a medicine to cure it; and for any kind of pain, It's a cure, and there are solutions and prescriptions. "
As you saw at above sentence, we have a prescription , we have a medicine. God gave it. So instead of designing one medicine it's not logical to find it. I introduce you the soil and obviously said lots of things regarding that.
You can design this experiment one time practically or you can't design an experiment practically.
I said this before that you don't need professional equipment, you can also design this experiment easily.
And I say to you and I accept that there are too questions about how soil can treat COVID-19 but what I said to you?
Just design an experiment, those questions that you had will be answered.
Everything that are in soil are in human body but there aren't in same amount and some of them , are a lot in human body and some of them are very few and among things that in human body are a few or a lot aren't equal . Some of them are a few than some of them . Four things that are in human a lot and eight things that in human body are a few and eight things are very few:1 . molybdenum 2. Silicone 3 . fluorine 4.cobalt 5.manganese 6. Iodine 7. Copper 8.zinc and that eight things are a lot than that eight things:1 . magnesium 2.sodium 3 . potassium 4.calcium 5 . phosphorus 6 . chlorine 7.sulfur 8 . iron and that four elements that are very a lot in human body are:1 . oxygen 2.carbon 3 . hydrogen 4.nitrogen (azote). Two nations that their names are France and Austria in dissection for finding elements that are in human body become pioneer. This paragraph that is at my manuscript and I copy that from it , that I said to you before please read it but I don't read or not but except this , you can design an experiment with soil that I said although there are lots of questions but if you practically use the soil and test this experiment your questions also will be answered.
You decide to do which experiment, and I obviously said that treatment.
I knew gramacidin used before and
I suggest you theoretically don't decline this opinion and by the way if it doesn't have worth , I mean if this treatment doesn't have worth to try or do it practical and test it I didn't insist on it.
I am not sure but maybe this links be helpful links:
Research into all of the above areas and those discussed more fully in the literature needs to continue to understand fully the effect of soil on human health. Interdisciplinary and transdisciplinary studies will be needed in the future because narrowly focused research will be inadequate to address many of the outstanding issues that still need to be understood. Many disciplines including soil science, agronomy, geology, geography (cultural and physical), biology, microbiology, ecology, public health and medicine (amongst others) will need to be involved in these collaborative studies. In addition, the field of soil and human health needs more people within scientific societies and political establishments to convey the importance of and to secure funding for these studies. This special section seeks to help achieve these goals by bringing together specialists from different fields to present original research on topics important to the study of the soil and human health connection.
Here are some information regarding how to take a medicine out of soil.
Someone did this before.
Please see the information and attachment and links.
Dubos began his career in microbiology in 1927, when he joined Oswald Avery's laboratory[4] at The Rockefeller Institute for Medical Research. Avery was looking for a microbe that could break down the polysaccharide capsule of a deadly strain of bacterial pneumonia in the same way that soil bacteria digested decaying organic matter in the woods. Dubos identified a bacterium that secreted an enzyme that broke down polysaccharide.[5] In 1939, with the help of Rockefeller Institute biochemist Rollin Hotchkiss, Dubos isolated the antibacterial agents tyrothricin and gramicidin from the bacterium Bacillus brevis that killed or inhibited Gram-positive bacteria and tested their bacterial, chemical, and clinical properties. These antibiotics remain in limited use today. In 1942, before antibiotics were in general use, Dubos warned that bacterial resistance should be expected.[6]
Dubos devoted most of his professional life to the empirical study of microbial diseases and to the analysis of the environmental and social factors that affect the welfare of humans. His pioneering research in isolating antibacterial substances from certain soil microorganisms led to the discovery of major antibiotics. He performed groundbreaking research and wrote extensively on a number of subjects, including tuberculosis, pneumonia, and the mechanisms of acquired immunity, natural susceptibility, and resistance to infection.
In 1948, Dubos shared the Albert Lasker Basic Medical Research Award with Selman Waksman for "their achievement in studies of the antibiotic properties of soil bacteria".[7] A member of the National Academy of Sciences, he served as an editor of the Journal of Experimental Medicine from 1946 to 1972.
In later years, Dubos explored the interplay of environmental forces and the physical, mental and spiritual development of mankind. The main tenets of his humanistic philosophy were: global problems are conditioned by local circumstances and choices, social evolution enables us to rethink human actions and change direction to promote an ecologically balanced environment, the future is optimistic since human life and nature are resilient and we have become increasingly aware of the dangers inherent in natural forces and human activities, and we can benefit from our successes and apply the lessons learned to solving other contemporary environmental problems.
For the academic years 1963–1964 and 1964–1965, he was a Fellow at the Center for Advanced Studies of Wesleyan University.[8] He served as chairman of the trustees of the René Dubos Center for Human Environment, a non-profit education and research organization that was dedicated in his honor in 1980. The mission of the center, which was co-founded by William and Ruth Eblen, is to "assist the general public and decision-makers in formulating policies for the resolution of environmental problems and the creation of environmental values." Dubos remained actively involved with the Center until his death in 1982. He also served on the board of trustees of Science Service, now known as Society for Science & the Public, from 1949 to 1952.
See this link:
Dobos, a French scientist who worked for Rockfels Medical Research in New York, wondered how soil could kill germs. How is it that a patient with tuberculosis or plague disappears shortly after being buried, the same germs that killed him?
Researchers have already made good predictions, for example, that there are special microbes in the soil that suppress any kind of organic and living matter, and because the TB germ itself is a living thing, it is likely that certain microbes are also present in the soil. In other words, good germs kill bad germs. The discoverer took three glasses and filled them with soil, watering them every day, and severe germs such as germs. The microbes nurtured the algae, streptococcus, and staphylococci in each of them, so that months passed, and the bacteria bacteria were constantly poured into the relevant glasses of water every day.
Eventually, Dobos took some of the soil from one of the glasses and poured it into one of the eight test tubes containing the alkaline microbe that had been grown in the milk, and in about an hour the contents of the tubes became clear and clear, what is it? Was it a factor that killed the germs of nature?
In his microscopic studies, he saw a microbial microbe that had a cylindrical microbe embedded in it, and after a minute it destroyed it and survived on its own. And the substance that is secreted by this microbe and kills the insidious microbes is called thyrotricin.
Hope this information be helpful if God wants .
Thank you
Best wishes
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