Category Applied Science & Technology

Most of the heavy vehicles are fitted with diesel engines, which generate more vibrations and noise than petrol engines.

When the engine is placed in the front it gives rise vibrations from the engine and the transmission line. It also causes discomfort to the passengers especially in case of long journeys.

If the engine is fitted at the rear it is comfortable to the passengers but problems such as remote operation of accelerator, gear shifting and inferior engine cooling arises. 

Rear engines reduce fatigue of the driver. He is also free from noise and vibration from the engine. Moreover, the weight on the front portion of the vehicle is reduced and so the torque needed to steer the vehicle would be less. Also, the hot air from the engine does not enter inside the cabin. However, the cost of manufacturing a rear engine vehicle is higher compared to front engine vehicle.

Fitting engines at the rear side has many advantages. First, the weight of the driving wheels (rear) is increased in slopes. This gives better traction through improved road adhesion.

 As the propeller shaft is absent, chassis height can be decreased. Further, the front portion of the vehicle is amenable to better designing and front axle construction can be simplified. But this type has certain disadvantages. They are difficult to service, have decreased cooling efficiency and are unstable at high speeds.

            In India, only front engine with front axle drive or rear axle drive is preferred as they give considerable ground clearance which is suitable for the road conditions.

The active ingredient in any mosquito repeller (whether it is mats, coils or solution) is d-trans allethrin or allethrin a.i (house hold insecticide). In the case of mats, apart from the main ingredient, the following are present – stabilizer (piperonyl butoxide), dye (blue), perfume, solvents (isopropyl myristate, butyl stearate) plus an inert ingredient like paper.

            Although mats and other repellants are not directly harmful to humans, symptoms of poisoning such as nervousness and anxiety may be experienced because of its active ingredients. Anyhow, on the basis of observations made from the use, experience and studies, no such symptoms have been acknowledged.

             If ingested, vomiting should be induced with care to prevent aspiration. If skin is contaminated, wash immediately with soap and water. If eyes are affected, wash them immediately with copious amounts of water. There is specific antidote for the chemical compound.

   When dry wood pieces and seeds of certain tree species are put in water, they absorb water and swell noticeably. This phenomenon of water absorption is called imbibitions.

            Imbibition is due to the presence of large number of hydrophilic colloids in both the living and dead cells of wooden materials. They include proteins and carbohydrates such as starch, cellulose and pectin. In the case of dry wood, there are more dead cells with lignified walls. As a result it readily absorbs and releases water depending on the environmental conditions.

            For example, during rains, relative humidity of atmospheric air is high. Hence, wooden doors absorb water molecules and swell. If the clearance between the door frame and door is insufficient to accommodate the swell, we experience difficulty in closing and opening it.

            Periodic painting helps to reduce moisture absorption and the difficulty.

     Physiologically, alimentary canal (gastrointestinal tract) is lined with mucous layer. Mucous contains mucin protein and water. Mucous is secreted by mucous glands present on the epithelium. Mucous, is present not only inside the alimentary canal, but also lines the respiratory and urinogenital tracts. This mucous lining primarily acts as a protective barrier and protects the underlying living cells from pathogens and from other physical and chemical hazards.

            When we drink very hot liquid this mucous lining protects the living cells beneath it from getting burnt. This happens mainly due to liquid water molecules in mucous. Water molecules have high enthalpy (E) and boiling point. This property of water molecules in mucous enables it to act as a heat absorbent and prevent the penetration of heat beneath it. Our skin is also involved in protection of underlying tissues and organs from external environmental hazards.

            Skin is composed of a superficial layer (the epidermis) and a deeper layer (the dermis). Dermis consists of many cell layers and most of the layers are made up of satiated, denucleated, keratinized dead cells. These layers act as physical barriers against the invasion of pathogens and harmful substances.

            But these stratified layers are not as effective as the mucous in the heat production mechanism. Because, these layers are dry in nature and contain no water molecules to absorb heat, and are permeable, when hot substances are poured on the skin, the dry horny layers manage to give little protection to the living cells from the heat.

    The liquid that leaves the body is almost unrelated, in chemical composition, to the liquid consumed. Any substance, solid or liquid, that goes down the esophagus, passes through the digestive tract and, if not absorbed, is incorporated into the faecal matter. Urine, in contrast, is created by the kidneys from metabolic waste produced in the tissues and transported through the bloodstream. Any coloured compound that one drinks either will or will not interact biochemically with the body’s system. If it does, this interaction (like any other chemical reaction it might undergo) will tend to alter or eliminate its colour. If it does not, the digestive system will usually decline to absorb it and will be excerted in the faeces which, you will have noticed, show considerable colour variation than the urine.

            Coloured substances in food and drink are usually organic compounds that the human body has an amazing ability to metabolize, turning them into colourless carbon dioxide, water and urea.

            The toughest stuff is often taken care of by the liver, which is a veritable waste incinerator. However, on the very infrequent occasion when the intake of coloured substances exceeds what the body can quickly metabolize, the colour is not necessarily removed as the liquid leaves the body. This is well known to anyone who has indulged in large quantities of borsch, or the Russian beetroot soup.

     While being made, the cereals are cooked into dry, crispy froths of syrupy, starchy stuff. In the process, and on cooling, they harden, and stresses induced during drying distort them. If you let them slowly absorb humidity from the air, they soften and the stresses relax gently, evenly and quietly. The cereals go leathery and sullen, and pass gently into milk and stomach.

            However, if you wet the fresh, crisp cereals their stresses are relieved suddenly and unevenly and thousands of minute shells suddenly find themselves with one side hard and stressed and the other side soft. They are bite.

            The processing of cereals for some breakfast foods creates bubbles in what is a brittle but weak material which swells when it absorbs water. As liquid touches one side of the bubble it swells and distorts so that the opposite side splits.

            The sound of this splitting is amplified by the air cavity in the same way as a stringed musical instrument vibration is amplified by its sound box.