{"id":17484,"date":"2017-11-10T14:13:49","date_gmt":"2017-11-10T14:13:49","guid":{"rendered":"https:\/\/cbselibrary.com\/?p=17484"},"modified":"2017-11-10T14:13:49","modified_gmt":"2017-11-10T14:13:49","slug":"frank-icse-solutions-for-class-9-physics-chapter-5-heat-solutions","status":"publish","type":"post","link":"https:\/\/cbselibrary.com\/frank-icse-solutions-for-class-9-physics-chapter-5-heat-solutions\/","title":{"rendered":"Frank ICSE Solutions for Class 9 Physics Chapter 5 – Heat Solutions"},"content":{"rendered":"
Frank ICSE Solutions for Class 9 Physics Chapter 5 – Heat Solutions<\/p>\n
PAGE NO: 191. Yes, heat is a form of energy<\/p>\n Solution – 02.<\/p>\n Joule is the SI unit of heat.<\/p>\n Solution – 03.<\/p>\n One calorie is defined as the quantity of heat required to raise the temperature of 1 gram of water through 1oC.<\/p>\n Solution – 04.<\/p>\n 1 calorie = 4.2 joules.<\/p>\n Solution – 05.<\/p>\n Temperature is the degree of hotness or coldness of a body compared to other bodies around it. Solution – 06.<\/p>\n We feel cold on touching ice because heat flows from our warm hands to cold ice. Due to this flow of heat from hand to ice, the temperature of our hand falls. This is why we feel cold.<\/p>\n Solution – 07.<\/p>\n We feel cold on touching ice because heat flows from our warm hands to cold ice. Due to this flow of heat from hand to ice, the temperature of our hand falls. This is why we feel cold.<\/p>\n Solution – 08.<\/p>\n <\/p>\n Solution – 09.<\/p>\n Heat flows from a body at a higher temperature to a body of lower temperature. <\/p>\n Solution – 10.<\/p>\n Yes, heat is the cause of temperature because temperature of a body rises when the heat flows into the body.<\/p>\n Solution – 11.<\/p>\n Heat changes the temperature of a body due to flow of heat in or out of the given body.<\/p>\n Solution – 12.<\/p>\n Calorie. Because 1 calorie = 4.2 joules.<\/p>\n Solution – 13.<\/p>\n No, the exact relation is as given Solution – 14.<\/p>\n Yes, because the heat flow is only due to temperature difference between the temperature of two bodies.<\/p>\n PAGE NO: 229. Temperature is the degree of hotness or coldness of a body compared to other bodies around it. Solution – 02.<\/p>\n Normal temperature of human body is 370C.<\/p>\n Solution – 03.<\/p>\n To convert 200c into0F Solution – 04.<\/p>\n Upper fixed point on the Celsius scale is 1000C.<\/p>\n Solution – 05.<\/p>\n Tk = 80 K Solution – 06.<\/p>\n SI unit of latent heat is Joule per kg (J\/kg).<\/p>\n Solution – 07.<\/p>\n Relative humidity is defined as the amount of water vapour in the air compared to the amount needed for saturation.<\/p>\n Solution – 08.<\/p>\n Coefficient of Linear expansion is equal to the change in length of a rod of length 1m when its temperature rises by 10C. Its SI unit is oc-1.<\/p>\n Solution – 09.<\/p>\n Celsius was the scientist who discovered the first thermometer in 1710.<\/p>\n Solution – 10.<\/p>\n According to principle of calorimetry of mixtures, Solution – 11.<\/p>\n SI unit of coefficient of cubical expansion is oc-1.<\/p>\n Solution – 12.<\/p>\n Two uses of bimetallic strip are Solution – 13.<\/p>\n Telephone wires sag in summer because due to heat of the sun, the wire expands and increases in length, thus they sag in summer.<\/p>\n Solution – 14.<\/p>\n <\/p>\n Solution – 15.<\/p>\n Not all substances expand on heating. Some examples of substances which do not expand on heating are plastics, polythene and rubber.<\/p>\n Solution – 16.<\/p>\n Evaporation is the phenomenon of a change of a liquid into vapour without raising the temperature. Evaporation needs energy for phase change from liquid to gases. As water evaporates off your skin, it absorbs energy(heat) from the body to make the phase change to gas thus cooling the body.<\/p>\n Solution – 17.<\/p>\n Factors affecting evaporation are Solution – 18.<\/p>\n The cold air that blows from land towards sea during night, is called land breeze Solution – 19.<\/p>\n No, the conduction is not possible in gases. Gases are bad conductors.<\/p>\n Solution – 20.<\/p>\n No, conduction is not possible in vacuum.<\/p>\n Solution – 21.<\/p>\n The velocity of thermal radiations is equal to the speed of light i.e. 3 x 108 m\/s.<\/p>\n PAGE NO: 230. We wear woolen clothes in winter because woolen clothes have tiny pores and air is trapped in these pores and being a bad conductor, the trapped air obstructs the flow of body heat to the surroundings.<\/p>\n Solution – 23.<\/p>\n A newly made quilt is warmer than an old one because the cotton in the old quilt gets compressed and very little air will remain trapped in it, hence heat insulation is quite poor.<\/p>\n Solution – 24.<\/p>\n In cold countries, water pipes are covered with poor conductors because poor conductor prevents water from freezing and thus prevent these pipes from bursting.<\/p>\n Solution – 25.<\/p>\n Three devices used to detect heat radiations are Solution – 26.<\/p>\n The increase in size of a body on heating is called thermal expansion.<\/p>\n Solution – 27.<\/p>\n Linear expansion is the increase in length of a solid on heating.<\/p>\n Solution – 28.<\/p>\n Coefficient of Linear expansion is equal to the change in length of a rod of length 1m when its temperature rises by 10C.<\/p>\n Solution – 29.<\/p>\n A bimetallic strip consists of two metal strips- one with high coefficient of expansion and the other with low coefficient of expansion.<\/p>\n Solution – 30.<\/p>\n SI unit of coefficient of linear expansion is oc-1.<\/p>\n Solution – 31.<\/p>\n Water is the substance which contracts, when heated from 00C to 40C.<\/p>\n Solution – 32.<\/p>\n Coefficient of volume expansion is equal to the change in volume of a rod of volume 1m3 when its temperature rises by 1oC.<\/p>\n Solution – 33.<\/p>\n SI unit of coefficient of volume expansion is oC-1.<\/p>\n Solution – 34.<\/p>\n Two uses of bimetallic strip are Solution – 35.<\/p>\n We should heat the neck of the bottle because due to heating the neck will expand and loosen the stopper stuck in the neck. In this way, we can easily remove the stopper from the bottle.<\/p>\n Solution – 36.<\/p>\n When hot water is poured into a thick glass tumbler, it generally cracks because on pouring hot water in the tumbler the inner surface heats up and expands more as compared to its outer surface. This unequal expansion between the two surfaces causes a strain and the tumbler cracks.<\/p>\n Solution – 37.<\/p>\n A substance is made up of molecules arranged in a lattice. On heating, the molecules vibrate faster in the lattice and bump into each other harder. So the distance between the molecules increases thus expanding lattice. Thus, the substances expand on heating.<\/p>\n Solution – 38.<\/p>\n There are three types of thermal expansion Solution – 39.<\/p>\n Gaps are left in the railway tracks because the tracks gets heated during the day and as a result they increase in length. If the gaps are not provided, the railway line would buckle outward and may cause derailment.<\/p>\n Solution – 40.<\/p>\n The beams of the bridges expand maximum during the summer days and contract maximum during the winter nights. If the beams are fixed at both ends on the pillars, they may develop crack due to expansion and contraction. To avoid this, beams are made to rest on rollers on the pillars to provide space for expansion.<\/p>\n Solution – 43.<\/p>\n <\/p>\n Solution – 44.<\/p>\n A ventilator is provided in a room because it helps in removing the hot air from the room and allows the fresh and cold air to come in.<\/p>\n Solution – 45.<\/p>\n No, it is not possible to heat a liquid or gas from above because the transfer of heat through convection takes place vertically upwards in liquids and gases. So if they are heated from above, the liquid or gas at the top will only be heated because most liquids and gases are themselves bad conductor of heat so they cannot conduct heat from top layer to the bottom layer.<\/p>\n Solution – 46.<\/p>\n (a). Water is heated generally from below because water itself is a bad conductor of heat and the transfer of heat through convection take place vertically upwards. Solution – 47.<\/p>\n Main characteristics of thermometric substance are Solution – 48.<\/p>\n Wood is an insulator of heat.<\/p>\n Solution – 49.<\/p>\n (a). In cold countries, windows are provided with two glass panes because in between these two glass panes, a thin layer of air is present: air being a bad conductor obstructs the conduction of heat from the room to outside. Solution – 50.<\/p>\n Thermometer works on the principle that substances expand on heating and contract on cooling. So we use a thermometric substance which expands and contracts uniformly.<\/p>\n Solution – 51.<\/p>\n Advantages of mercury and alcohol as thermometric liquid are Solution – 52.<\/p>\n Lower point of a thermometer is the temperature at which ice starts melting at normal atmospheric pressure i.e. 0oC Solution – 53.<\/p>\n <\/p>\n Solution – 54.<\/p>\n (i). Laboratory thermometer is used to measure and observe the temperature of various chemical reactions Solution – 55.<\/p>\n <\/p>\n Solution – 56.<\/p>\n The temperature that is common in both clinical and Fahrenheit scale is -40oC Solution – 57.<\/p>\n (a). 60oC Solution – 58.<\/p>\n (a). 104oF Solution – 59.<\/p>\n <\/p>\n Solution – 60.<\/p>\n Three modes of heat transfer are Solution – 62.<\/p>\n <\/p>\n Solution – 63.<\/p>\n A wooden knob and a metal latch are both being at same temperature but it feels colder to touch the latch because metal is a good conductor and as soon as we touch it heat from our hand flows to the latch and we feel cold while on the other hand wood is a bad conductor of heat, heat of our hand does not flow into it therefore it does not feel cold.<\/p>\n Solution – 64.<\/p>\n The flask consists of double walled glass container with vacuum between the walls A and B to prevent heat loss due to conduction and convection as vacuum is the excellent insulator .to prevent heat loss by radiation, the inner side of the wall A and outer side of wall B is silvered. It has a narrow mouth which is closed by a non-conducting rubber stopper.<\/p>\n Solution – 65.<\/p>\n The spiral starts moving because due to the flame of the candle the spiral heats up and expands. While expanding, the spiral tries to create space for the extension in length and an outward pull is created which causes the spiral to move.<\/p>\n Solution – 66.<\/p>\n (i). In winters, the human body covered with a blanket keeps warm because the blanket has air trapped in it which provide heat insulation to the body from the surroundings and keep us warm PAGE NO: 231. Transformation of Sun’s energy in sun-eco system through a food chain is called energy flow.<\/p>\n Solution – 68.<\/p>\n <\/p>\n Solution – 69.<\/p>\n Any energy transfer is not 100% because energy is lost to the surroundings in the form of heat, friction losses during the transfer of energy. Therefore complete energy is not transferred.<\/p>\n Solution – 70.<\/p>\n
\nSolution – 01.
\nHeat is defined as a form of energy which flows from one point to another on account of temperature difference.
\nSolution – 01.<\/p>\n
\nSI unit of temperature is Kelvin (K).<\/p>\n
\n1 calorie = 4.2 joules.<\/p>\n
\nSolution – 01.<\/p>\n
\nSI unit of temperature is Kelvin (K)<\/p>\n
\nToc \/100 = (Tof -32)\/180
\n20\/100 = (Tof – 32)\/180
\n20 X 180\/100 = Tof -32
\nTof = 36+32 = 680F<\/p>\n
\nTc = Tk -273
\nTc = 80 – 273
\nTc = -1530C<\/p>\n
\nHeat gained = Heat lost<\/p>\n
\n(a). As thermostat in electric iron
\n(b). As balance wheel in watches<\/p>\n
\n(a). Humidity- more the humidity less is the evaporation
\n(b). surface area- more the surface area more is the evaporation
\n(c). wind- more the wind more is the evaporation
\n(d). temperature- more the temperature more is the evaporation<\/p>\n
\nThe cold air that blows from the sea towards the land during the day is known as the sea breeze. These breezes are the examples of natural convection current.<\/p>\n
\nSolution – 22.<\/p>\n
\n(a). Blackened bulb thermometer
\n(b). Differential air thermo scope
\n(c). Thermopile<\/p>\n
\n(a). As thermostat in electric iron
\n(b). As balance wheel in watches<\/p>\n
\n(a). Linear expansion
\n(b). Superficial expansion
\n(c). Cubical expansion<\/p>\n
\n(b). Land becomes warmer than water during the day because water has more specific heat capacity so it absorbs the heat and heats up slowly but on the other hand land has less specific heat and it heats up faster than water.<\/p>\n
\n(a). The substance should have high coefficient of expansion so that it is sensitive to the smallest change in temperature
\n(b). The substance should have uniform expansion all over its entire volume
\n(c). The substance should have minimum specific heat so that it absorbs minimum heat from the body under measurement.<\/p>\n
\n(b). 1 calorie = 4.2 joules
\n(c). Yes, it is possible to boil water in a thin paper cup because when heated the heat in the paper cup is transferred to the water through convection and paper cup doesn’t get sufficient heat to get burnt<\/p>\n
\n(a). They both are good conductors of heat.
\n(b). They have high coefficient of expansion thus are sensitive to the smallest change in temperature
\n(c). Their freezing points are very low and boiling point is high in case of mercury
\nDisadvantages
\n(d). Alcohol is transparent and this makes hard to read the thermometer.
\n(e). It does not have uniform expansion.
\n(f). Mercury is less sensitive than alcohol as its coefficient of expansion is less than alcohol.
\n(g). Alcohol is a volatile liquid.<\/p>\n
\nUpper point of a thermometer is the temperature at which water just starts boiling at normal atmospheric pressure i.e. 100oC.<\/p>\n
\n(ii). Clinical thermometer is used to measure human body temperature
\n(iii). Six’s maximum and minimum thermometer is used in meteorology and horticulture.<\/p>\n
\nDerivation is as follows
\nLet the temperature be x
\nC\/100= (F – 32)\/180
\nx\/100 = (x-32)\/180
\nx X 180\/100 = x-32
\n9\/5x = x-32
\n-4\/5x =32
\nX = – 40<\/p>\n
\n60\/100 = (F-32) \/ 180
\nF = 6 X 18 +32
\n= 110oF
\n(b). 100oC
\n100\/100 = (F – 32) \/180
\nF = 180 X 1 + 32
\n= 212oF
\n(c). -40oC
\n-40\/100 = (F – 32) \/180
\nF = -4 X 18 + 32
\n= 40oF
\n(d).85oC
\n85\/100 = (F – 32) \/180
\nF = 85 X 18\/10 +32
\n= 185oF<\/p>\n
\nC = (F – 32) X 100\/180
\nC = 72 X 100\/180
\n= 40 oC
\n(b). 95oF
\nC = (F – 32) X 100\/180
\n= 63 X 10\/18
\n= 35oC
\n(c). 113oF
\nC = (F – 32) X 100\/180
\n= 81 X 10\/18
\n= 45oC
\n(d). 32oF
\nC = (F – 32) X 100\/180
\n= 0 X 10\/18
\n= 0oC<\/p>\n
\n(a). Conduction involves the transfer of heat from the hot end to the cold end from particle to particle of the medium.
\n(b). Convection is the transfer of heat from one body to another by actual movement of the particles of the medium
\n(c). Radiation is the transfer of heat from one body to another without the need of an intervening material medium<\/p>\n
\n(ii). It is better to use two thin blankets to keep the body warm rather than using a single blanket of equal thickness because in between the two thin blankets there is more air trapped than in the single blanket of equal thickness so using two thin blankets better heat insulation is provided to the body from the surroundings and keep us warm
\n(iii). In winter the birds fluff their feathers in order to trap air in their feathers so that the air provides heat insulation to their body from the surroundings and keep them warm and save them from winter.
\n(iv). Old quilts are less warmer than new ones because the cotton in the old quilt gets compressed and very little air will remain trapped in it, hence heat insulation is quite poor
\n(v). People wear light colured clothes in winter because these clothes reflect most of the sun’s radiations and absorb only a little of them. Therefore, they keep themselves cool.<\/p>\n
\nSolution – 67.<\/p>\n