SAHIL is a student grooming for engineering college entrance examination in India. Though he excels at mathematics but finds physics and chemistry perplexing. His father, the Author, perceives the reasoning for his lack of interest in science. He interacts with his son to overcome his impediments, but during their discussion, Sahil poses such questions on Electrons to him, that he feels maladroit in replying with his assimilated knowledge of science, and thus resolves to find the precise answers for his queries. His research reveals to him that his son's qualms can-not be satisfied by using the prevalent laws of physics, he has to explore beyond their boundaries. He breaks this barricade when he considers space to be non-uniform and made up of a medium of LINES OF SPACE. He assumes this medium to contract and expand, and develops formulae to find the stresses prevalent in this medium. Working on the formula for shriveling of this medium, he stumbles upon the fact that the gravitation of earth follows exactly that formula when getting diminished as one goes away from the earth, into outer space.
Encouraged by the striking similarity between gravitation of earth and stress in Lines of Space, the author applies this thought to refraction of light when RITIKA, his daughter, requests him to explain the cause of refraction of light on its entering from one medium to the other at an inclined angle. Lines of Space explained this phenomenon also aptly, and the author gets further boost in his new found concept when he interacts with Sahil on the issue of creation of Universe by Big-bang.
Sahil and Ritika's interest in physics starts growing as they deliberate on science with their father, and one day ask him to explain the Theory of Relativity, which he does, but it gives him one more topic where he can check the validity of Lines of Space, which is still a secret contemplation of the author. While working on this substantiation of the concept of Lines of Space, he recollects that the great scientist of 20th Century, Sir Albert Einstein had once stated that either space or time should be adjustable to maintain the speed of light constant and later reformed it to say that they are interchangeable. In spite of this verity, the author breaks away from this theory and discovers that Lines of Space concept makes the Theory of Relativity straightforward without the requirement of time dilation, thus dispensing with the Time paradox.
Amalgamating the above three outcomes of his exploration, the author learns that light bending around the heavy objects such as sun and stars is due to the different concentration of Lines of Space, and not because of pulling by gravity. This reflection obviously controverts Einstein's famous divination of bending of light by gravity, proven by the observation of Sir Arthur Eddington in 1919 during total solar eclipse. Hence, the rumination of the author seems absurd, but Einstein himself had said once, "If at first the idea is not absurd, then there is no hope for it."
"Gravity should spring from some property of space-time," is another statement from Einstein. He proposed this property as CURVATURE of Space-time and gave the world four dimensional model of the universe. Here again, author is at variance with Einstein as he had already unearthed that the gravity is caused by stress in Lines of Space and not due to curvature of space-time. Thus the four dimensional space-time models simplifies to three dimensional space model, which a common man can relate to. Nature has to be simple, if any law makes it complicated then probably that law is not true. When a simple YES and No of the binary system can give rise to such advanced computers, the author contemplates, then why can't two simple initial conditions originate the complete universe?
Exhilarated by the simplification of various perceptions on application of Lines of Space to them, the author tries to relate this concept with sub-atomic particles. Once again, he is bemused to notice that the formula used for shrinking of medium of space is applicable for them also. Thus he finds the long sought-after link between gravity and strong nuclear force. But it is not simple; he has to settle many issues, before he can reveal this relation to the world. He finds himself frequently in the situation, where single unanswered question can derail the complete mechanism. With perseverance, he keeps dissipating all hurdles one by one.
The author determines the similarity between gravitational and electrostatic force from his further probing into Lines of Space. Subsequently, he combines all the fundamental forces into one, caused by the stress in Lines of Space and gives a new approach to the creation of the subatomic particles and Universe. Hence, this book presents a ground breaking new concept of Lines of Space through colloquy between author and his children.