Practice Test


Q1) Estimate the pressure difference between the lower and upper surfaces of the wings. Show Answer


Q2) What is the pressure difference between the two ends of the tube? Show Answer


Q3) What is the Reynolds number? Show Answer


Q4) The equation of continuity. Which is valid for incompressible fluids is a statement of Show Answer


Q5) The Bernoulli's equation that is valid for nor-viscous, incompressible fluids having laminar flow is a consequence of Show Answer


Q6) Magnus effect is the Show Answer


Q7) The dimensions of viscosity are Show Answer


Q8) The Reynold's number equals Show Answer


Q9) The surface energy of a liquid drop of radius r is proportional to Show Answer


Q10) In a satellite moving around any planet, the gravitational force is effectively balanced. If the ice cube exists there, and it melts with passage of time, its shape will Show Answer


Q11) A liquid is contained in a vessel. The liquid solid adhesive force is very weak as compared to the cohesive force in the liquid. The shape of the liquid surface will be Show Answer


Q12) Two liquids drops coalesce to form a large drop. Now, Show Answer


Q13) Statement 1 : The viscosity of a liquid increases with rise of temperature.
Statement 2: Viscosity of liquid is the property of the liquid by virtue of which it opposes the relative motion amongst its different layers. Show Answer


Q14) Statement 1 : Two row boats moving parallel to each other and nearby, are attracted towards each other.
Statement 2 : Increase of velocity of fluid flow decreases the pressure between them. Show Answer


Q15) The correct diagram showing the trajectories is Show Answer


Q16) When two capillary tubes of different diameters are dipped vertically, the rise of the liquid is Show Answer


Q17) The term 'surface of a liquid' means Show Answer


Q18) If ice melts under gravity free conditions in vacuum, the final geometrical shape will be Show Answer


Q19) The excess pressure due to surface tension inside a spherical drop in 6 units. If eight such drops combine, then the excess pressure due to surface tension inside the larger drop is Show Answer


Q20) What is the ratio of excess pressures inside two soap bubbles of diameters in the ratio 2 : 1? Show Answer


Q21) The surface energy of a liquid drop is E. It is sprayed into 1000 equal droplets. Then its surface energy becomes Show Answer


Q22) The pressure energy per unit volume of a liquid is Show Answer


Q23) A water tank of height 10 m, completely filled with water is placed on a level ground. It has two holes one at 3 m and the other at 7 m from its base. The water ejecting from Show Answer


Q24) The vertical sections of the wing of a fan are shown in figure. Maximum upthrust is in Show Answer


Q25) The work done by the force of gravity per unit volume is Show Answer


Q26) Statement 1 : When two soap bubbles having different radii are kept in contact, the common surface at their interface bulges into the larger bubble.
Statement 2: Pressure inside the smaller bubble is larger. Show Answer


Q27) Statement 1 : All the rain drops do not reach the surface of the earth with the same velocity.
Statement 2 : An object falling through a viscous medium eventually attains a terminal velocity. Show Answer


Q28) What is the work done by surface tension force? Show Answer


Q29) What is the rise in the potential energy of the liquid? Show Answer


Q30) What is the work done against friction of the capillary. (Assume liquid rises slowly in the tube) Show Answer


Q31) The value of surface tension of a liquid at critical temperature is Show Answer


Q32) The spherical shape of rain-drop is due to Show Answer


Q33) Surface tension is due to Show Answer


Q34) When there is no external force, the shape of a liquid drop is determined by Show Answer


Q35) Soap helps in cleaning clothes, because Show Answer


Q36) A pin or a needle floats on the surface of water, the reason for this is Show Answer


Q37) Coatings used on raincoat are waterproof because Show Answer


Q38) If temperature increases, the surface tension of a liquid Show Answer


Q39) A drop of oil is placed on the surface of water. Which of the following statement is correct Show Answer


Q40) The temperature at which the surface tension of water is zero Show Answer


Q41) A small air bubble is at the inner surface of the bottom of a beaker filled with cold water. Now water of the beaker is heated. The size of bubble increases. The reason for this may be Show Answer


Q42) The spiders and insects move and run about on the surface of water without sinking because Show Answer


Q43) Small droplets of a liquid are usually more spherical in shape than larger drops of the same liquid because Show Answer


Q44) Hairs of shaving brush cling together when it is removed from water due to Show Answer


Q45) A square frame of side L is dipped in a liquid. On taking out, a membrane is formed. If the surface tension of the liquid is T, the force acting on the frame will be Show Answer


Q46) Water does not wet an oily glass because Show Answer


Q47) A water drop takes the shape of a sphere in a oil while the oil drop spreads in water, because
(A.F. = adhesive force C.F. = cohesive force) Show Answer


Q48) Which of the fact is not due to surface tension Show Answer


Q49) In the glass capillary tube, the shape of the surface of the liquid depends upon Show Answer


Q50) Force necessary to pull a circular plate of 5 cm radius from water surface for which surface tension is 75 dynes/cm, is Show Answer


Q51) The property of surface tension is obtained in Show Answer


Q52) The surface tension of a liquid Show Answer


Q53) If two glass plates are quite nearer to each other in water, then there will be force of Show Answer


Q54) On mixing the salt in water, the surface tension of water will Show Answer


Q55) Consider a liquid contained in a vessel. The liquid solid adhesive force is very weak as compared to the cohesive force in the liquid. The shape of the liquid surface near the solid shall be Show Answer


Q56) At which of the following temperatures, the value of surface tension of water is minimum Show Answer


Q57) If a glass rod is dipped in mercury and withdrawn out, the mercury does not wet the rod because Show Answer


Q58) Mercury does not wet glass, wood or iron because Show Answer


Q59) Surface tension of a liquid is found to be influenced by Show Answer


Q60) When a drop of water is dropped on oil surface, then Show Answer


Q61) Two pieces of glass plate one upon the other with a little water in between them cannot be separated easily because of Show Answer


Q62) Small liquid drops assume spherical shape because Show Answer


Q63) It is easy to wash clothes in hot water because its Show Answer


Q64) Due to which property of water, tiny particles of camphor dance on the surface of water Show Answer


Q65) Oil spreads over the surface of water whereas water does not spread over the surface of the oil, due to Show Answer


Q66) Cohesive force is experienced between Show Answer


Q67) The property utilized in the manufacture of lead shots is Show Answer


Q68) The dimensions of surface tension are Show Answer


Q69) A wooden stick 2m long is floating on the surface of water. The surface tension of water 0.07 N/m. By putting soap solution on one side of the sticks the surface tension is reduced to 0.06 N/m. The net force on the stick will be Show Answer


Q70) The force required to take away a flat circular plate of radius 2 cm from the surface of water, will be (the surface tension of water is 70 dyne/cm) Show Answer


Q71) Surface tension may be defined as Show Answer


Q72) Energy needed in breaking a drop of radius R into n drops of radii r is given by Show Answer


Q73) The potential energy of a molecule on the surface of liquid compared to one inside the liquid is Show Answer


Q74) Two droplets merge with each other and forms a large droplet. In this process Show Answer


Q75) A drop of liquid of diameter 2.8 mm breaks up into 125 identical drops. The change in energy is nearly (S.T. of liquid =75 dynes/cm) Show Answer


Q76) Radius of a soap bubble is 'r', surface tension of soap solution is T. Then without increasing the temperature, how much energy will be needed to double its radius Show Answer


Q77) A spherical liquid drop of radius R is divided into eight equal droplets. If surface tension is T, then the work done in this process will be Show Answer


Q78) The amount of work done in blowing a soap bubble such that its diameter increases from d to D is (T= surface tension of the solution) Show Answer


Q79) If T is the surface tension of soap solution, the amount of work done in blowing a soap bubble from a diameter D to 2D is Show Answer


Q80) If work W is done in blowing a bubble of radius R from a soap solution, then the work done in blowing a bubble of radius 2R from the same solution is Show Answer


Q81) A spherical drop of oil of radius 1 cm is broken into 1000 droplets of equal radii. If the surface tension of oil is 50 dynes/cm, the work done is Show Answer


Q82) The work done in blowing a soap bubble of radius r of the solution of surface tension T will be Show Answer


Q83) If two identical mercury drops are combined to form a single drop, then its temperature will Show Answer


Q84) If the surface tension of a liquid is T, the gain in surface energy for an increase in liquid surface by A is Show Answer


Q85) The surface tension of a liquid at its boiling point Show Answer


Q86) What is ratio of surface energy of 1 small drop and 1 large drop, if 1000 small drops combined to form 1 large drop Show Answer


Q87) One thousand small water drops of equal radii combine to form a big drop. The ratio of final surface energy to the total initial surface energy is Show Answer


Q88) A big drop of radius R is formed by 1000 small droplets of water, then the radius of small drop is Show Answer


Q89) Which of the following statements are true in case when two water drops coalesce and make a bigger drop Show Answer


Q90) 8000 identical water drops are combined to form a big drop. Then the ratio of the final surface energy to the initial surface energy of all the drops together is Show Answer


Q91) 8 mercury drops coalesce to form one mercury drop, the energy changes by a factor of Show Answer


Q92) When two small bubbles join to form a bigger one, energy is Show Answer


Q93) Two small drops of mercury, each of radius R, coalesce to form a single large drop. The ratio of the total surface energies before and after the change is Show Answer


Q94) Radius of a soap bubble is increased from R to 2R work done in this process in terms of surface tension is Show Answer


Q95) The work done in blowing a soap bubble of radius 0.2 m is (the surface tension of soap solution being 0.06 N/m) Show Answer


Q96) If two soap bubbles of equal radii r coalesce then the radius of curvature of interface between two bubbles will be Show Answer


Q97) A liquid does not wet the sides of a solid, if the angle of contact is Show Answer


Q98) The meniscus of mercury in the capillary tube is Show Answer


Q99) When the temperature is increased the angle of contact of a liquid Show Answer


Q100) The angle of contact between glass and mercury is Show Answer


Q101) A mercury drop does not spread on a glass plate because the angle of contact between glass and mercury is Show Answer


Q102) A liquid is coming out from a vertical tube. The relation between the weight of the drop W, surface tension of the liquid T and radius of the tube r is given by, if the angle of contact is zero Show Answer


Q103) The parts of motor cars are polished by chromium because the angle of contact between water and chromium is Show Answer


Q104) A glass plate is partly dipped vertically in the mercury and the angle of contact is measured. If the plate is inclined, then the angle of contact will Show Answer


Q105) The liquid meniscus in capillary tube will be convex, if the angle of contact is Show Answer


Q106) If a water drop is kept between two glass plates, then its shape is Show Answer


Q107) The value of contact angle for kerosene with solid surface. Show Answer


Q108) A liquid wets a solid completely. The meniscus of the liquid in a sufficiently long tube is Show Answer


Q109) What is the shape when a non-wetting liquid is placed in a capillary tube Show Answer


Q110) What is the shape when a non-wetting liquid is placed in a capillary tube Show Answer


Q111) For which of the two pairs, the angle of contact is same Show Answer


Q112) If the surface of a liquid is plane, then the angle of contact of the liquid with the walls of container is Show Answer


Q113) A soap bubble assumes a spherical surface. Which of the following statement is wrong Show Answer


Q114) If two soap bubbles of different radii are in communication with each other Show Answer


Q115) The excess pressure due to surface tension in a spherical liquid drop of radius r is directly proportional to Show Answer


Q116) A long cylindrical glass vessel has a small hole of radius 'r' at its bottom. The depth to which the vessel can be lowered vertically in the deep water bath (surface tension T) without any water entering inside is Show Answer


Q117) If the surface tension of a soap solution is 0.03 MKS units, then the excess of pressure inside a soap bubble of diameter 6 mm over the atmospheric pressure will be Show Answer


Q118) The excess of pressure inside a soap bubble than that of the outer pressure is Show Answer


Q119) The pressure of air in a soap bubble of 0.7cm diameter is 8 mm of water above the pressure outside. The surface tension of the soap solution is Show Answer


Q120) Pressure inside two soap bubbles are 1.01 and 1.02 atmospheres. Ratio between their volumes is Show Answer


Q121) When a large bubble rises from the bottom of a lake to the surface, its radius doubles. If atmospheric pressure is equal to that of column of water height H, then the depth of lake is Show Answer


Q122) A soap bubble in vacuum has a radius of 3 cm and another soap bubble in vacuum has a radius of 4 cm. If the two bubbles coalesce under isothermal condition, then the radius of the new bubble is Show Answer


Q123) The volume of an air bubble becomes three times as it rises from the bottom of a lake to its surface. Assuming atmospheric pressure to be 75 cm of Hg and the density of water to be 1/10 of the density of mercury, the depth of the lake is Show Answer


Q124) Excess pressure of one soap bubble is four times more than the other. Then the ratio of volume of first bubble to another one is Show Answer


Q125) There are two liquid drops of different radii. The excess pressure inside over the outside is Show Answer


Q126) If pressure at half the depth of a lake is equal to 2/3 pressure at the bottom of the lake then what is the depth of the lake Show Answer


Q127) If the radius of a soap bubble is four times that of another, then the ratio of their pressures will be Show Answer


Q128) The pressure at the bottom of a tank containing a liquid does not depend on Show Answer


Q129) In capillary pressure below the curved surface of water will be Show Answer


Q130) Two bubbles A and B are (A > B) joined through a narrow tube. Then Show Answer


Q131) Two soap bubbles have different radii but their surface tension is the same. Mark the correct statement Show Answer


Q132) If the excess pressure inside a soap bubble is balanced by oil column of height 2 mm, then the surface tension of soap solution will be (r = 1 cm and density d = 0.8 gm/cc) Show Answer


Q133) In Jager's method, at the time of bursting of the bubble Show Answer


Q134) The excess pressure in a soap bubble is thrice that in other one. Then the ratio of their volume is Show Answer


Q135) When two capillary tubes of different diameters are dipped vertically, the rise of the liquid is Show Answer


Q136) Due to capillary action, a liquid will rise in a tube, if the angle of contact is Show Answer


Q137) In the state of weightlessness, a capillary tube is dipped in water, then water Show Answer


Q138) Two parallel glass plates are dipped partly in the liquid of density 'd' keeping them vertical. If the distance between the plates is 'x', surface tension for liquids is T and angle of contact is , then rise of liquid between the plates due to capillary will be Show Answer


Q139) It is not possible to write directly on blotting paper or newspaper with ink pen Show Answer


Q140) Two capillary tubes P and Q are dipped in water. The height of water level in capillary P is 2/3 to the height in Q capillary. The ratio of their diameters Show Answer


Q141) Two capillaries made of same material but of different radii are dipped in a liquid. The rise of liquid in one capillary is 2.2 cm and that in the other is 6.6 cm. The ratio of their radii is Show Answer


Q142) When a capillary is dipped in water, the water rises to a height h. If the length of the capillary is made less than h, then Show Answer


Q143) Water rises upto 10 cm height in a long capillary tube. If this tube is immersed in water so that the height above the water surface is only 8 cm, then Show Answer


Q144) A capillary tube made of glass is dipped into mercury. Then Show Answer


Q145) By inserting a capillary tube upto a depth l in water, the water rises to a height h. If the lower end of the capillary is closed inside water and the capillary is taken out and closed end opened, to what height the water will remain in the tube Show Answer


Q146) If the diameter of a capillary tube is doubled, then the height of the liquid that will rise is Show Answer


Q147) Two capillary tubes of radii 0.2 cm and 0.4 cm are dipped in the same liquid. The ratio of heights through which liquid will rise in the tubes is Show Answer


Q148) The action of a nib split at the top is explained by Show Answer


Q149) The correct relation is Show Answer


Q150) Water rises upto a height h in a capillary on the surface of earth in stationary condition. Value of h increases if this tube is taken Show Answer


Q151) During capillary rise of a liquid in a capillary tube, the surface of contact that remains constant is of Show Answer


Q152) A shell having a hole of radius r is dipped in water. It holds the water upto a depth of h then the value of r is Show Answer


Q153) In a capillary tube, water rises by 1.2 mm. The height of water that will rise in another capillary tube having half the radius of the first, is Show Answer


Q154) If capillary experiment is performed in vacuum then for a liquid there Show Answer


Q155) If liquid level falls in a capillary then radius of capillary will Show Answer


Q156) Water rises to a height h in a capillary at the surface of earth. On the surface of the moon the height of water column in the same capillary will be Show Answer


Q157) The surface tension for pure water in a capillary tube experiment is Show Answer


Q158) In a capillary tube experiment, a vertical 30 cm long capillary tube is dipped in water. The water rises up to a height of 10cm due to capillary action. If this experiment is conducted in a freely falling elevator, the length of the water column becomes Show Answer


Q159) In a capillary tube, water rises to 3 mm. The height of water that will rise in another capillary tube having one-third radius of the first is Show Answer


Q160) Kerosene oil rises up the wick in a lantern Show Answer


Q161) Water rises against gravity in a capillary tube when its one end is dipped into water because Show Answer


Q162) A capillary tube of radius R is immersed in water and water rises in it to a height H. Mass of water in the capillary tube is M. If the radius of the tube is doubled, mass of water that will rise in the capillary tube will now be Show Answer


Q163) Water rises up to a height h in a capillary tube of certain diameter. This capillary tube is replaced by a similar tube of half the diameter. Now the water will rise to the height of Show Answer


Q164) There is a horizontal film of soap solution. On it a thread is placed in the form of a loop. The film is pierced inside the loop and the thread becomes a circular loop of radius R. If the surface tension of the loop be T, then what will be the tension in the thread Show Answer


Q165) A large number of water drops each of radius r combine to have a drop of radius R. If the surface tension is T and the mechanical equivalent of heat is J, then the rise in temperature will be Show Answer


Q166) An air bubble in a water tank rises from the bottom to the top. Which of the following statements are true Show Answer


Q167) In a surface tension experiment with a capillary tube water rises upto 0.1 m. If the same experiment is repeated on an artificial satellite, which is revolving around the earth, water will rise in the capillary tube upto a height of Show Answer


Q168) The correct curve between the height or depression h of liquid in a capillary tube and its radius is Show Answer


Q169) A soap bubble is blown with the help of a mechanical pump at the mouth of a tube. The pump produces a certain increase per minute in the volume of the bubble, irrespective of its internal pressure. The graph between the pressure inside the soap bubble and time t will be- Show Answer


Q170) Which graph represents the variation of surface tension with temperature over small temperature ranges for water Show Answer


Q171) Assertion :
It is easier to spray water in which some soap is dissolved.
Reason :
Soap is easier to spread.
Show Answer


Q172) Assertion :
It is better to wash the clothes in cold soap solution.
Reason :
The surface tension of cold solution is more than the surface tension of hot solution.
Show Answer


Q173) Assertion : When height of a tube is less than liquid rise in the capillary tube, the liquid does not overflow.
Reason :
Product of radius of meniscus and height of liquid in capillary tube always remains constant.
Show Answer


Q174) Assertion :
A needle placed carefully on the surface of water may float, whereas a ball of the same material will always sink.
Reason :
The buoyancy of an object depends both on the material and shape of the object.
Show Answer


Q175) Assertion :
A large force is required to draw apart normally two glass plates enclosing a thin water film.
Reason :
Water works as glue and sticks two glass plates.
Show Answer


Q176) Assertion :
The impurities always decrease the surface tension of a liquid.
Reason :
The change in surface tension of the liquid depends upon the degree of contamination of the impurity.
Show Answer


Q177) Assertion :
The angle of contact of a liquid decrease with increase in temperature.
Reason :
With increase in temperature, the surface tension of liquid increase.
Show Answer


Q178) Assertion :
The concept of surface tension is held only for liquids.
Reason :
Surface tension does not hold for gases.
Show Answer


Q179) Assertion :
At critical temperature, surface tension of a liquid becomes zero.
Reason :
At this temperature, intermolecular forces for liquids and gases become equal. Liquid can expand without any restriction.
Show Answer


Q180) Assertion :
A large soap bubble expands while a small bubble shrinks, when they are connected to each other by a capillary tube.
Reason :
The excess pressure inside bubble (or drop) is inversely proportional to the radius.
Show Answer


Q181) Assertion :
Tiny drops of liquid resist deforming forces better than bigger drops.
Reason :
Excess pressure inside a drop is directly proportional to surface tension.
Show Answer


Q182) Assertion :
The water rises higher in a capillary tube of small diameter than in the capillary tube of large diameter.
Reason :
Height through which liquid rises in a capillary tube is inversely proportional to the diameter of the capillary tube.
Show Answer


Q183) Assertion :
Hot soup tastes better than the cold soup.
Reason :
Hot soup has high surface tension and it does not spread properly on our tongue.
Show Answer


Q184) Assertion :
The shape of a liquid drop is spherical.
Reason :
The pressure inside the drop is greater than that of outside.
Show Answer


Q185) Energy required to form a soap bubble of diameter 20 cm will be (Surface tension for soap solution is 30 dynes/cm) Show Answer


Q186) If the work done in blowing a bubble of volume V is W, then the work done in blowing the bubble of volume 2V from the same soap solution will be Show Answer


Q187) Excess pressure inside a soap bubble is three times that of the other bubble, then the ratio of their volumes will be Show Answer


Q188) When a capillary tube is dipped in water it rises upto 8 cm in the tube. What happens when the tube is pushed down such that its end is only 5 cm above the outside water level Show Answer


Q189) A bubble of 8 mm diameter is formed in the air. The surface tension of soap solution is 30 dynes/cm. The excess pressure inside the bubble is Show Answer


Q190) The height upto which water will rise in a capillary tube will be Show Answer


Q191) A drop of water breaks into two droplets of equal size. In this process, which of the following statement is correct Show Answer


Q192) A soap bubble of radius R is blown. After heating the solution a second bubble of radius 2R is blown. The work required to blow the second bubble in comparison to that required for the first bubble is Show Answer


Q193) A false statement is Show Answer


Q194) Water rises to a height of 16.3 cm in a capillary of height 18 cm above the water level. If the tube is cut at a height of 12 cm Show Answer