The advantage(s) of using `O_(2)` rather than air in the steel industry is(are)
(I) there is a faster conversion , so a given plant can produce more steel in a day.
(II) larger quantities can be handled
(III) it gives a pure product and the surface is free from nitrides

The material A is fossil fuel which is extracted from the earth. It is said to be formed from the buried , large land plants by a very slow process B. When A is heated in the absence of air in a process called C, then it gives three products D, E, and F. The product D is used as a reducing agent in the extraction of metals the product E is used as an industrial fuel whereas the product F has been traditionally used for metalling the roads . d) What are (i) D, (ii) E and (iii) F ?

Read the following statements about genetically engineered plants. Select the ones that are advantageous . I. The increased yield from genetically engineered plants allows a smaller area of land to be farmed. II. Generally engineering plants may have improved nutritional value . III. Some plants can be genetically modified to give resistance to diseases. IV. There is more research needed on the long term effects of genetically engineered crops on the environment V. The use of genetically engineered crops may explain the increase in allergies in children

Large quantities of hydrogen are required these days in industry for various purposes. Water is found to be the industry raw material from which hydrogen can be obtained . One of the important methods for the commerical production of hyrogen in Lane's process in which steam is passes over hot iron. Iron decomposes steam with formation of magnetic oxide (Fe_(3)O_(4)) and hydrogen. (i) {:(3Fe,+,4H_(2)O,rarr,Fe_(3)O_(4),+, 4H_(2)),(,,"steam",,"magnetic ",,),(,,,,"oxide",,):} Iron is regenerated by reducing magnetic oxide with water gas (it is mixture of CO and H_(2) in 1:1 mole ratio). {:((ii),Fe_(3)O_(4),+,4CO,rarr,3Fe ,+,4CO_(2)uarr),((iii),Fe_(3)O_(4),+,4H_(2) ,rarr,3Fe,+,3H_(2)O),(,,,,,,,("Steam recovered")):} [equal amount sof magnetic oxide react in steps (ii) and (iii)] Steam so produced is again used in the previous step in which magnitic oxide is produced : [At . wt. implies Fe=56] How many litre H_(2) gas is produced in (i) at STP in the above problem?

Large quantities of hydrogen are required these days in industry for various purposes. Water is found to be the industry raw material from which hydrogen can be obtained . One of the important methods for the commerical production of hyrogen in Lane's process in which steam is passes over hot iron. Iron decomposes steam with formation of magnetic oxide (Fe_(3)O_(4)) and hydrogen. (i) {:(3Fe,+,4H_(2)O,rarr,Fe_(3)O_(4),+, 4H_(2)),(,,"steam",,"magnetic ",,),(,,,,"oxide",,):} Iron is regenerated by reducing magnetic oxide with water gas (it is mixture of CO and H_(2) in 1:1 mole ratio). {:((ii),Fe_(3)O_(4),+,4CO,rarr,3Fe ,+,4CO_(2)uarr),((iii),Fe_(3)O_(4),+,4H_(2) ,rarr,3Fe,+,3H_(2)O),(,,,,,,,("Steam recovered")):} [equal amount sof magnetic oxide react in steps (ii) and (iii)] Steam so produced is again used in the previous step in which magnitic oxide is produced : [At . wt. implies Fe=56] if iron is recovered in (ii) an (iii) with 80% efficiency , then how many gram iron is recovered if initially 56 gm iron is taken?

Large quantities of hydrogen are required these days in industry for various purposes. Water is found to be the industry raw material from which hydrogen can be obtained . One of the important methods for the commerical production of hyrogen in Lane's process in which steam is passes over hot iron. Iron decomposes steam with formation of magnetic oxide (Fe_(3)O_(4)) and hydrogen. (i) {:(3Fe,+,4H_(2)O,rarr,Fe_(3)O_(4),+, 4H_(2)),(,,"steam",,"magnetic ",,),(,,,,"oxide",,):} Iron is regenerated by reducing magnetic oxide with water gas (it is mixture of CO and H_(2) in 1:1 mole ratio). {:((ii),Fe_(3)O_(4),+,4CO,rarr,3Fe ,+,4CO_(2)uarr),((iii),Fe_(3)O_(4),+,4H_(2) ,rarr,3Fe,+,3H_(2)O),(,,,,,,,("Steam recovered")):} [equal amount sof magnetic oxide react in steps (ii) and (iii)] Steam so produced is again used in the previous step in which magnitic oxide is produced : [At . wt. implies Fe=56] How many grams of iron are needed in order to produce 11.35 litre fo H_(2) gas at STP?

Large quantities of hydrogen are required these days in industry for various purposes. Water is found to be the industry raw material from which hydrogen can be obtained . One of the important methods for the commerical production of hyrogen in Lane's process in which steam is passes over hot iron. Iron decomposes steam with formation of magnetic oxide (Fe_(3)O_(4)) and hydrogen. (i) {:(3Fe,+,4H_(2)O,rarr,Fe_(3)O_(4),+, 4H_(2)),(,,"steam",,"magnetic ",,),(,,,,"oxide",,):} Iron is regenerated by reducing magnetic oxide with water gas (it is mixture of CO and H_(2) in 1:1 mole ratio). {:((ii),Fe_(3)O_(4),+,4CO,rarr,3Fe ,+,4CO_(2)uarr),((iii),Fe_(3)O_(4),+,4H_(2) ,rarr,3Fe,+,3H_(2)O),(,,,,,,,("Steam recovered")):} [equal amount sof magnetic oxide react in steps (ii) and (iii)] Steam so produced is again used in the previous step in which magnitic oxide is produced : [At . wt. implies Fe=56] How many grams of steam is consumed in order to produce 11.35 litres H_(2) gas at STP?

Surface tension is the property of a liquid by virtue of which free surface of liquid at rest tries to have minimum surface area. In doing so, the free surface of liquid at rest behaves as if it is covered with a stretched membrane. Surface tension (S) of a liquid is measured by from (F) acting on unit length fo a line (l) imagined to be drawn tangentially anywhere on the free surface i.e., S = (F)/(l). S is measured in N m^(-1) Read the above passage and answer the following question : (i)What is the cause of surface tension ? (ii) A wire ring of 30 mm diameter resting flat on the surface of a liquid is raised. The pull required is 1.5 gf more before the film breaks then it is after. What is surface tension of the liquid ? (iii) What are the implication of this phenomenon in day to day life ?