Federal Education Loan Cancellation

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One of the ways you could most likely eliminate your Federal student education loans is through student loan consolidation. Student loan consolidation courses are also called forgiveness or release applications, and are available to Federal education loan borrowers. Regulation makes it necessary that you be qualified for Federal student loan consolidation; even so you can find really certain requirements that must be satisfied to top quality.

Regular educators who just work at a low-income main or second university for a minimum of several straight several years could be eligible for a student loan cancellation. If you borrow from PLUS Loans, you may not qualify for student loan consolidation, an exception to this is. You need to additionally be a new customer.

If your loan was certified incorrectly because of identity theft, or if your school forged your signature on your promissory note, other reasons why you could qualify for student loan consolidation service are is your school you were enrolled with closed before completing your program.

Disabilities could also be eligible you for bank loan consolidation. Statement from your medical doctor declaring that you will be fully impaired after the loan was presented out is needed to be eligible for a cancellation as a result of impairment.

Individual bankruptcy might cause your loan to become cancelled. For your bank loan being cancelled due to personal bankruptcy resistant that repaying your loan would cause unnecessary hardship must be offered to the bankruptcy the courtroom.

Decide on consolidation programs may result in taxation consequences. By cancelling your loan based off of a job or school related incident, taxable consequences should not result from the consolidation. You may be exempt from having to bay the taxes consequent from consolidation programs, by claiming insolvency status using I.R.S Form 982.

Consolidating your lending options into one particular personal loan might be useful, as many find it easier to make one particular monthly instalment rather than several separate obligations per loan. Student loan support plans will help you choose the most effective alternatives for you when paying back or cancelling your education loans.

Student loan forgiveness programs may greatly help you, though it is important that you do not sit around and let your student loan debt pile up with the intention of using a forgiveness program to wipe them clean, as they are not guaranteed. With the aid of education loan forgiveness applications you will find on your own on the way to paying off your student education loans in your own speed. To get more valuable tips and information on paying off your student loans check out back often on our weblog.

E-Learning and the Future of Online Education

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Among the most recent technological advances that have been promoting the competitiveness of companies, such as call centers, electronic commerce, customer relationship management centers and human resource management centers, is a technology hub that is to realize its full potential – electronic education or more popularly the e-learning format.

By definition, e-learning is the provision of educational programs and learning systems through electronic means. The e-learning is based on the use of a computer or other electronic device (for instance, mobile phone) to provide people with educational materials on the go. Distance education laid the foundation for the development of e-learning, which solves some difficulties in terms of timing, synchronization of schedules, attendance and travel, typical problems of traditional education.

Also, the e-learning can involve a wider range of equipment online education. The term e-learning covers a broad suite of applications and processes such as Web-based learning, computer based training, virtual classrooms and digital collaboration (group work).

Advantages of E-Learning Programs

We present what experts in this area considered the most important benefits to the education industry:

Increased Productivity: The e-learning solutions as Web-based training (WBT, web-based training) and computer based training (CBT computer-based training) allows students to study from your desktop. Direct delivery of the courses can reduce downtime involving low productivity and helps to eliminate travel costs.

Timely: When launching a new product or service, e-learning can provide simultaneous training many participants about the processes and applications of the new product. A good program of e-learning can provide the necessary training in time to meet a specific date of commencement of operations.

Flexible Training: An e-learning system usually has a modular design. In some cases, participants can choose their own learning path. Additionally, users can mark certain sources of information as a reference, thus facilitating the process of change and increasing the benefits of the program.

Cost Savings per Participant: Perhaps the greatest benefit of e-learning is that the total cost of training per participant is lower than in a traditional instructor-led. However, e-learning programs tailored to entry may be more expensive due to the design and development thereof. It is recommended to conduct a thorough analysis to determine whether the e-learning is the best solution for your training needs and training before investing in the project.

What Discourages E-Learning?

The main barriers that have prevented the integration of these technologies of e-learning training programs of companies are:

1. Organizational structure and traditionalism.

2. Lack of best practices.

3. The lack of support and experience.

4. Lack of understanding and vision about e-learning.

5. The lack of human resources and user acceptance.

6. Organizations and traditional processes.

7. The lack of skill on the part of teachers and instructors, coupled with a negative attitude.

8. Lack of strategic actions.

9. Lack of training and support to teachers and instructors.

10. The time required for the preparation of the material.

The Most Common Errors

Like any emerging technology, e-learning requires the involvement of expert consultants who can implement a program leading organizations to success. Then we present the ten most common mistakes when defining a strategy for e-learning:

1. No vision.

2. Confusing strategy with technology.

3. Place the Learning Management System (LMS, learning management system) as the core of the strategy.

4. Focusing on the development and delivery rather than the business itself.

5. Focus on transforming a conventional training program in an online education program.

6. No consensus among partners.

7. No time to diagnose the lack of support from senior management.

8. To think that this new function is a part-time work or short duration.

9. Ignore the weaknesses and dangers.

10. Failure to change management.

Designing Tomorrow’s Education

While in Mexico and there are companies that offer e-learning solutions that involve content developed by experts, and infrastructure management platforms and other services, the acceptance of these technologies is not yet that this industry would have. Experts say that the adoption of e-learning in Mexico has been slow because there are cultural barriers.

Like other initiatives such as e-Mexico, public and private institutions are required to design and implement specific programs to advance the education industry in Latin America. It is imperative to mobilize the educational and cultural communities, as well as economic and social actors to accelerate changes in education systems and training for our countries to move towards a knowledge-based society.

An initiative of e-learning could be a path to modernize our economy. At the same time, through the components of the education industry, can provide the entire community, but particularly to our young people the skills and tools they need to succeed in a globalized economy based on knowledge. Those who are more interested in such projects are indeed educational institutions, which reduce costs for both the student and for the institution itself, mean a great incentive.

The Importance Of Education

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In today’s fast moving time the most important things in business is being in the business trend. As it’s necessary for keep an eye on latest technology, for that reason training and studying new stuff in the business world is actually essential.

The idea of “Investment in human potential” arises often in media, all are talking about it and virtually all believe this is one of the basic areas that an employer should provide to his staff.

Declarative, almost all organisations know the need for learning and really, how often can that actually happen? How proudly looks the actual declaration “continuous studying ensures individual and social improvement therefore the economic prosperity”? Especially if you work in a business where you have not got even 1 hour to train in the last yr.

The commonest reasons behind NOT educating staff happen when;
– The Company accomplishes its own evaluation advantage using affordable prices. Training employees for such companies is costly.
– There’s an growing rise in assistance industries.

Let us check the specific situation with the tourism industry, for example. Employers associated with the the tourism industry sectors are usually in the quest for lots of employees as they require at a certain time, and thus their own interest will be to spend them much less, therefore nor they educate or will they take trained employees.

Why is continuing education essential to anyone?
Because of a person and the company you work for. If you’re not happy with the workplace, the most typical reason is insufficient inspiration, insufficient flexibility of choice-making at work along with a perception that you simply will no longer grow in the industry sense, yet stagnating. When this happens, the one thing that’s keeping you on the job will be the continuity of salary.

These days every operating individual has an chance to continue the education without needing to leave the work or take a trip each day to college. Nearly all colleges provide their students learning as a possible possibility to lengthen their own education or perhaps better their knowledge.

The desire for any additional training is going to be confirmation of the boss that you are inspired and also dedicated worker. Seeing that employers’ survey reveals, that is exactly what you should want for!
If you decide on a new career, here are a few of the actual strong advantages of choosing a business which spends heavily for personnel learning:
– If you’re younger, formal education hasn’t prepared you for that work you do. You require more training in becoming more effective and much better on the job, to achieve your own complete potential and have the pleasure of achievement.
– In case you have plenty of years of experience, all your learning gives you a chance to stay very competitive inside labor market, boost your “value” and offers the possibility of scaling the organization hierarchy.

How To Improve Rural Education In India

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Indian literacy rate in the year 2011 census was 74.04 Government of India has taken several measures to improve the literacy rate in villages and towns of India. State Governments has been directed to ensure and improve literacy rate in districts and villages where people are very poor. There has been a good improvement in literacy rate of India in last 10 years but there is still a long way to go.

Many children living in rural areas receive a level of education which is very poor. But City areas level of education is very good.
To compare with city education and rural education:
“There are many schools in cities and towns but there are very few schools in villages and the rural areas.

“Transportation facilities like bus pick and in city schools where as children in rural areas have to walk miles to reach their schools.

“Basic amenities like no drinking water in provided in some of the schools in villages.

“Level of education in City schools is far advanced as compared to the basic level taught in rural schools.

“Computer facility is there city areas but no computer facility in villages.

“Group classes are taken by using video conferencing and audio conferencing in City schools where as no such facilities are provided for students in rural schools.

“The teachers are given tools like laptops, printers to provide notes and other important notices to the children in city schools while there are no such facilities in the rural schools.

“School infrastructure in case of cities areas is much more advanced as compared to that in schools in rural areas where some times children are even made to sit on the floor due to non-availability of furniture.

” School education in city areas is more advanced especially since there is a lot of computer aided teaching.
“Apart from the course curriculum rural schools are not able to involve children in other activities like sports, co-curricular activities and competitions. Such events and activities tend help in the over all development of the children.

Government of several measures India has taken to improve the education in villages and towns of India. But some step to improve rural side education.
List of Steps taken by Government of India to improve rural areas side education in India:

Step1: To provide free standard education to rural children.
Step2: Supporting children for higher education.
Step3: Guiding and Supporting Research scholars in Educational Development.
Step4: Implementing new teaching methodologies and Assessment system.
Step5: Promoting all schools to stress free environment.
Step6: Free education programs to poor people living in villages.
Step7: To provide Free Internet facility.
Step8: In our schools in rural side monthly once arrange seminar on any one topic example how to develop our communication?
Step9: In rural side must to teach spoken English. Because in this world English is very important. Most of the country speaking in English so rural side the government takes the step to provide free spoken English.
Step10: Maintain rank card system. Giving gift to top ranking students.
Step11: Extra caring to teach the poor students.
Step12: Yearly twice arranges the industrial visit.
Step13: Arrange the bus facility.
Step14: Maintain uniform education for all states. The Government of Tamil Nadu has been implemented the Common School System is called “Samacheer Kalvi” or Tamil Nadu Uniform System of School Education or Equitable education system. This is very good System. This System purpose is to make same quality syllabus which can stop discrimination based on economy, caste, religion and background for all school boards in Tamil Nadu. If we will have uniform education system in the states poor children can get more advantages of better education.

Contributions of Ancient Arabian and Egyptian Scientists on the Development of Physics & Technology

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Abstracts The modern Physics is based on the findings and thinking of the people of historical age. If no one knows the base and work of the previous on a subject, he or she could mere develop a new thought or findings. For, a civilization must know its past. Hence, the present work is a small effort to find out the contribution of ancient Arabian and Egyptian scientists in the field of Physics and Technologyy. Different scientists of different school of thought, correlating different streams of science being Physics as a main subject, are described in the present work. Key Words: Arabian and Egyptian Scientist, Physics, Technology

The Muslim scientists studied deeply the fundamental questions of physics. For instance Ibn Sina made a profound study of such phenomena as force, motion, light, heat, vacuum, etc. A great progress was made in theoretical and applied mechanics. Useful work was done in the field of mechanics on the wheel, axle, lever, pulley, inclined plane, windmill, water-wheel, toothed wheel, etc. The physicist and astronomer al-Khazini wrote a book on mechanics, hydrostatics and physics, named Kitab Mizan al-Hikmah (Book of the balance of wisdom) which is the most remarkable medieval work on these subjects. It gives a theory of the force of the attraction of the earth (gravity), according to which the universal force is directed towards the centre of the universe, which was supposed at that time to be the centre of the earth. It includes the tables of specific gravity of many liquids and solids (based on the work of al-Biruni), and a history of the subject; the gravity of air; observations on capillarity; the use of aerometer for the measurement of densities and the appreciation of the temperature of liquids; the theory of lever; the application of balance to leveling and to the measurement of time. The analysis and extracts of this book have been published in Arabic and English. (1) In another book on balance al-Khazini stresses the need to remove, as far as possible, the influences of temperature variation during weighing. When al-Khazini’s other studies are considered, he seems to be a precursor of Galileo. Al-Khazini’s full name was Abu’l Fath -Abd al-Rahman al-Mansur al-Khazini (or al-Khazin). He flourished about 1115-1121. He was a Greek (Rumi) slave. His master -Ali al-Khazin l-Marwazi arranged for his good scientific and philosophical education in Marw. Al-Khzin Compiled the astronomical tables called al-Zij al-Mu’tabar al-Sinjari (The esteemed Sinjaric Tables) which were named after Sinjar Ibn Malikshah Ibn Alp Arsaln, governor and later Sultan of Khurasn (1097-98 to 1157-58). They give the position of the stars for the year 1115-1116. Before al-Khazini, Umar al-Khayyam did the greatest work on the balance. Ibn Sina and al-Razi contributed to the theory of the balance. Ban Ms (the sons of Mus), who flourished during the reign of the Caliph al-Ma’mun, wrote many mechanical works. An important work on the balance called Farastn’ or -Qarastun is ascribed to them. Al-Rzi (d. 923-24) made investigations on specific gravity by using the hydrostatic balance. This balance was called al-Mizan al-Tabi’i (the physical balance). (2) Muhammad Ibn -Ali Ibn Rustam al-Khurasani was a famous constructor of clocks and, therefore, he was called al-Sa’ati (the clock maker). Between 1146 and 1169, he constructed a clock placed in the Bab Jairn. (often called -Bab al-Sa’ah, the door of the clock). Al-Sa’ti remained in charge of his clock until his death in 1184-85. (3) Another Muslim mechanician of the 13th century was Abu’l-Isa Ism’il Ibn Razzz (the son of rice merchant) Badi’al-Zamn al-Jazari. He was patronized from 577-578 to 601-602 A.H. 1181-1182 to 1205-1206 A.C.,by the Urtuqid rulers of Diyar Bakr, a district of al-Jazirah. He wrote a treatise on the knowledge of the geometrical mechanical contrivances entitled Kitab fi Ma’rifat al-Hiyal al-Handsiyyah, which was dedicated to the Urtuqid Nasir al-Din Mahmd (ruled from 1200 to 1222). It deals mainly with hydraulic apparatus (elepsydras, fountains, etc.). This important work is interesting from the technical point of view, and represents the best Arabic work on applied mechanics. It is divided into six parts. The first part which deals with the various types of the elepsydras indicating either equal or temporal hours is the most important. Muslims divided the day into twenty-four equal hours. But they adopted another type of division. They divided the day and night each into twelve hours of varying length according to the season. Such type of hours were also used by the Christians in Europe e.g., Italy, until the middle of the 18th century. The book was translated into German, and commentaries on it were also written. (4) Al-S’ti’s son Ridwn repaired and improved the clock, and also wrote a book to describe its construction and use. This book is an important source of the study of early Muslim clocks. Ridwan was a mechanician, physician and poet, and had knowledge of literature and music. He played the flute. Originally he belonged to Khurasan. He was appointed as wazir by the Ayyubi prince al-Faiz Ibrahim and his brother al-Mu’azzam Is. Ridwan also wrote a supplement to Ibn Sin’s treatise on grapes, and a commentary on his Qann (Canon). (5) Qaisar Ibn Abu-l-Qasim, the Egyptian mathematician, astronomer (d. 1251 A.C.) made a celestial globe. He probably made improvements on the water-wheels or water-mills. Such improved types of water-wheels are still seen on the Orontes, and are among the glories of Hama. He constructed these water-wheels (naura) for al-Muzzaffar al-Taqi al-Din Mahmud, the ruler of Hama from 1229 to 1244 A.C. (6) The philosopher Abu Nasr al-Farabi refuted the existence of a vacuum. He wrote a remarkable essay on the elasticity of the air. It is an original piece of research. (7) The Muslim scientists took interest in the determination of the specific gravity of various substances. Sanad Ibn -Ali, a scientist of the ninth century made investigations on specific gravity. Al-Biruni determined the specific gravity of 18 precious stones and metals. Ibn Sin and al-Rzi also made research on this subject. Ibn Yunus (d. 1009 A.C.) applied the pendulum to the measurement of time. Al-Biruni devised a time machine based on the Roman calendar. He constructed it for use in the mosque of Ghazna. But the Imam of the mosque rejected it saying that it was based on a non-Muslim work. At this Al-Biruni was very much annoyed. He said that the, determination of time is a purely secular matter. It is, therefore, of little value whether it is based on a Muslim calendar or a non-Muslim one. Only convenience should be taken into consideration.

Al-Biruni made reference to a certain kind of wells which are obtained by boring the earth to that level of water which is submitted to the hydrostatic pressure in which case due to the pressure water is driven upward as in the natural springs. He correctly explains the action of such wells by the principle of communicating vessels. (8) The Muslims developed the techniques of bathing. They constructed the hot, steam bath called Hammm (from the Arabic root Hamm meaning to heat). When the European Crusaders came to the East and experienced the comforts of these baths, they introduced them into their own countries. The Muslims were the first to apply the directive property of the magnetic needle to the determination of the direction of their journey while traveling on sea. The Chinese were the first to discover this property. The maritime trade between the Muslims gave much importance to the southern end of the needle than the northern one as it is done these days. This was probably because in some places like Syria and Asia Minor the southern end pointed roughly towards Makkah. Thus this end of the needle gave the general direction of the Qiblah. In the West the compass was first of all used by the Italian sailors. Some Muslims have referred to the compass in their writings. For instance, Bailak al-Qabajaqi in his book entitled Kanz al-Ahjr described the use of a floating compass witnessed by him in l242-43. (9) -The Muslims were also the first to invent guns and cannons and use explosive material in them. The purpose of this invention was to throw bullets at the enemy from a long distance. The Chinese used sodium nitrate only. But the penetrating power of explosives was discovered and made use of only by Muslims. The historians generally write that first of all guns were used in the war of Cressi, but from the writings of many Muslims it is revealed that guns had been used a long time ago. In one of these writings there is a story that some ruler named Ya’qb besieged in 602 A.H. (1205 A.C.) an African town Mehdra which was under the control of his chief rebel, and attacked the walls with the help of sounding guns and machines. From every machine there came out a number of showers of big stones and fire balls. The statement given by Ibn Khaldn in his -History of Berbers’ also proves the use of the guns at the time of war. He writes -Abu Yusuf, the Sultan of Morocco besieged in 672 A.H. (1273 A.C.) the city of Sijilmasa. He installed the instruments for besiege in front of the city. These instruments consisted of Manjneeq, Urawe and Handam with which the bits of iron were thrown. These bits were filled in the box of Handam, and the explosives kept behind them were set on fire. Its effect was strange and its results could be called an act of Allah. One day with the help of a stone thrown by Manjneeq, part of the wall fell, and from there the attack was made on the city. (10) The Muslims developed the science of optics. Ibn al-Haitham (Latin Alhazen) made a remarkable contribution towards this science. Indeed modern optics began with him. Before Ibn al-Haitham it was generally thought by the Greek, Roman and Muslim scientists that rays are emitted from the eyes towards the objects seen. Plato suggested that there was another set of rays which emitted from the object seen. Alexandrians believed that the vision lies in the lens of the eye. Ibn Sina and al-Biruni also believed that the ray went from the object to the eye. Aristotle’s ideas were very near to modern conception. The atomists put forward an atomical theory. Hunain Ibn Ishq in his work entitled -Questions on the eye’ put forward a theory which was somewhat like that of Plato. In his opinion the lens was the central organ of vision. Both the visual force coming from the brain and the image of the object coming from without were received in the lens. Al-Razi, too, in his monograph on the nature of vision showed that the eyes do not radiate light. (11) Ibn al-Haitham changed the traditional view by putting forward the theory that the objects are seen by rays passing from them towards the eye and not by the opposite process. Most of his successors did not agree with his view, but Al-Birni and Ibn Sina independently and fully agreed with him. Ibn al-Haitham solved a number of optical, problems on the basis of the mathematical knowledge of his day. Ibn al-Haitham dealt with such a medley of topics as the structure of the eye, optical illusion, perspective, binocular vision, vision of outlines, shadows and colours, the ancient catoptrics and dioptrics with new developments, camera obscura, Alhazen’s problem, mirages, comets, the Milky Way, rainbows, halos, etc. Ibn al-Haitham conducted research catoptrics which contains the problem known Alhazen’s problem. It is as follows:- -From two points in the plane of a circle to draw lines meeting at a point of the circumference and making equal angles with the normal at that point’. This leads, to an equation, of the fourth degree. Ibn al-Haitham solved it by the help of an hyperbola intersecting a circle. He also solved the so-called al-Mahani’s cubic equation. Ibn al-Haitham showed a marked progress in experimental techniques. He made research on spherical and parabolic mirrors; spherical aberration and dioptrics. He noticed that the ratio between the angles of incidence and reflection does not remain constant. He described the magnifying power of a lens and studied atmospheric refraction. He stated that the twilight only ceases or begins when the Sun is 19 below the horizon, and tried to measure the height of the atmosphere on that basis. He gave a better description of the eye and vision. He tried to explain, binocular vision, and gave a correct explanation of the apparent increase in the size of the sun and the moon near the horizon. He gave the first mathematical treatment of the -camera obscura’. Thus he deals with the problems which now come under at least seven subjects including anatomy, physiology, psychology, mathematics, astronomy, physics and meteorology. The full name of Ibn al-Haitham is Abu -Ali Muhammad Ibn al-Hasan Ibn al-Haitham. He was a native of Basra and was born in 354 A.H. (965 A.C.). He migrated to Egypt where he lived till his death. He was a noble person and a genius who had the knowledge of many sciences. He was the greatest mathematician of his age and one of the greatest opticians in history. He was also well versed in medicine and Arabic language. When the Caliph al-Hakim bi-Amrillah, who was very fond of philosophy, heard about Ibn al-Haitham, he had a great desire to see him. Al-Hkim was informed that Ibn al-Haitham had disclosed that if he had been in Egypt, he might have done something in connection with the river Nile, so that it would become beneficial in every case, whether the level of water was high or low. According to Ibn al-Haitham, the river water fell from a high place lying in the territory of Egypt. Hearing this report Al-Hakim became more fond of meeting Ibn al-Haitham .Al-Hkim sent a great amount of money to him, and persuaded him to come to his court. Ibn al-Haitham left for Egypt. When he reached near Cairo al-Hakim went to receive him. They met in a village near Bb al-Qahirah (the gate of Cairo). Al-Hakim honored him, provided him with all the facilities, and asked him to fulfill his promise regarding the river Nile. A group of workers was provided to help him in executing his plan. When Ibn al-Haitham made the survey of the site and came to a place called -Janadil’ (now called Shall), which lies near Aswan on an elevated ground, he realized the difficulties involved. Finding himself unable to fulfill his promise, he became very ashamed, Now he feared al-Hkim and to get rid of him he acted as a mad man, and remained in the condition of madness until the death of al-Hkim. Then he came to his senses and settled in Qubbah near the gate of Jami’ah al-Azhar, and engaged himself in writing books. He died in 1038. Ibn al-Haitham is the author of many works. He summarized Aristotle’s works, and wrote commentaries on them. He also summarized many medical works of Galen. His writings on mathematics and physics are 15 and on metaphysics and physics are 44 in number. His books include the one on plants and one on the properties of simple and Compound drugs. (12) His kitab al-Manazir (the optical thesaurus), is one of the leading classics which influenced scientific thought for more than six centuries. The Latin, Muslim and Hebrew writers such as Roger Bacon, John Peckham, Witelo, Ahmad Ibn Idris al-Qarafi, Qutb al-Din al-Shirzi, Levi Ben Gerson based their works on this great book. Ibn Sin made a deep study of light. He observed that if light is emitted due to the ejection of some sort of particles by the luminous source, the speed of light must be finite. (13) Al-Biruni noticed that the speed of light is immensely greater than that of the sound. (14) Nasir al-Din al-Tusi wrote two books on Optics. One of them, is entitled Al-Mabahith fi In-iks al-Shu-a-at wa In-itafiha (Research on the reflection and refraction of rays), contains a proof of the equality of the angles of incidence and reflection. The other is entitled -Tahrir kitab al-Manzir. In the preface the author remarks that one perceive objects because of the light rays emanating from them, but that everything happens as if the rays emanated from our eyes. (15) Qutb al-Din al-Shirazi, (d. 1311) who was one of the greatest scientist of all times presented his views on Optics in his astronomical works. In one of such works, entitled -Nihyat al-Idrk fi Diryat al-Aflak(Highest understanding of the knowledge of the Spheres); he discusses questions of geometrical optics, the nature of vision, and finally the rainbow. He was the first to give a satisfactory account of the rainbow. His explanation of the rainbow is based on his study of the passage of a ray of light through a transparent sphere (drop of water). He discovered that the rainbow is formed when the rays are refracted twice and reflected once (or tunice in the case of the secondary rainbow) in the humid atmosphere. (16) Another, important physicist and mathematician of the 14th century, was Kamal al-Din Abu’l- Hasan al-Farisi. He wrote a book entitled -Tanqih al-Manazir (Correction of optics) which is an elaborate and original commentary on Ibn al-Haitham’s Kitb al-Manzir (the book of optics). It covers not only physical and physiological optics, but also meteorology, perspective and many other subjects. It includes remarks on serial perspective, colour effects, etc. Kamal al-Din suggested the use, of hyperboloidal lenses in order to avoid spherical aberration. He gave an account of the refraction of light. According to George Sarton, this account implies the following facts; the speed of light is finite but very great; the speed of light in different media is inversely proportional to the optical density (not the same as the material density). The second of these facts seems to be an adumbration of the wave theory of light as against the corpuscular theory. Kaml al-Din performed a number of experiments on camera obscura and improved its use initiated by Ibn al-Haitham. He showed that the images obtained on a screen in a dark room by means, of the rays of light passing through a narrow hole, are independent of the shape of the ho1e, and that the smaller the hole, the sharper the images. It was also proved that the images of many objects are formed separately on the screen, but the images and the directions were reversed. With the help of the camera he observed eclipses and the movements of the clouds and birds. (17) Al-Hasan al-Rammah (the lancer) Najm al- Din al-Ahadab (the hunchback) wrote on military subjects. He flourished in Syria. He wrote two treatises on horsemanship and the art of war, (1) Kitab al-Furusiyah wa’l Munasab al-Harbiyah (Horsemanship and war stratagems), (2) Nihayat al-Su’ul wa’l -Umniya fi Ta’allum al-A’mal al-Furusiyah. The first treatise deals with the military matters such as the military operation, means of using lances, bows, siege engines, and the method of fighting at sea and the communication of fire etc. It contains various pyrotechnic recipes; Al-Hasan considered saltpeter the fundamental substance of pyrotechnics. He explained the methods of preparing and purifying it by means of potash and of repeated crystallizations. In the opinion of George Sarton, that is more important than it may seem, for the impurities of saltpeter are hygroscopic, and thus tend to destroy its value. To discover saltpeter and its uses was one thing, to purify it was another. (18) The Muslims improved the art of shipbuilding, taught Mediterranean seamen to construct lighter sailing-ships or caravels (garaf), to caulk their boats with tar still known in Romance languages by the Arabic name of gatran (Fr goudron, It. caltrame)-to handle sails and cables (Ar. habl). (19)

REFERENCES :- 1. A1-Khazini, -Abd al-Rahmn, -Mizan al-Hikmah, Hyderabad Deccan, 1359 A.H. pp. 1-170. 2. Al-Qifti, -Ali Ibn Ysuf, Tarikh al-Hukama, Leipzig, 1903, p. 271. 3. Sarton, George, Introduction to the History of Science, Carneige Institution of Washington, 1951, Vol. I, p. 632. 4. Ibid., p. 631. 5. Ibid., 632. 6. Ibid., vol. II, Part II, p. 623. 7. Al-Qifti, op. cit., p. 277. 8. Sarton, op. cit., vol. I, p. 707. 9. Ibid., Vol. II, Part I, p. 24. 10. Balgirami, -Ali, Tamaddun-e-Arab, (Urdu translation of a French work by Lebon), Hyderabad Deccan, p. 441. 11. Ibid., vol I, p. 609. 12. Ibid., p. 721. 13 Isma’il Basha al-Baghdadi, Hadiyyah al-Arifin, Istanbul, 1951, Vol. II, p. 66. 14. Sarton, op.cit., p. 707. 15. Ibid., p. 709-713. 16. Ibid. vol. II, Part, II, p. 1009. 17. Ibid.,p. 1018. 18. Ibid., Vol III, part I p. 707. Al-Frisi, Kaml al-Din, Tnqih al-Manazir, Hyderabad Decean, India. 19. Sarton op. cit., Vol. II, Part II, p. 1039. 20. Briffault, Dr. Robert, The Making of Humanity, Islamic Book Foundation, 1980, p. 205.