Pressure Questions and Answers - Physics Form 1 Topical Revision

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Questions

  1. State the possible reason why, if water is used as a barometer liquid, the glass tube required to hold the column of the liquid is longer
  2. State the definition of atmospheric pressure
  3. A person’s lung pressure as recorded by a mercury manometer is 90 mm Hg. Express this pressure in SI units.
  4. The figure below shows to light pith balls arranged as shown.
    pith balls
    State what is observed when air is blown on the outer sides of the pith balls.
  5. The barometric height at sea level is 76cm of mercury while at a point on a highland it is 74cm of mercury. What is the altitude of the point? (Take g = 10m/s2 , density of mercury = 13600kg/m3 and density of air as 1.25kg/m3)
  6.  
    1. Define specific latent heat of fusion of a substance
    2. Water of mass 200g at temperature of 60°Cis put in a well lagged copper calorimeter of mass 80g. A piece of ice at 0° C and mass 20g is placed in the calorimeter and the mixture stirred gently until all the ice melts. The final temperature, T, of the mixture is then measured.
      Determine:
      1. The heat absorbed by the melting ice at O°C
      2. The heat absorbed by the melted ice (water) to rise to temperature T (answer may be given in terms of T)
      3. The heat lost by the warm water and the calorimeter (answer may be given in terms of T)
      4. The final temperature of the mixture
        (Specific latent heat of fusion of ice = 334 000 Jkg-1
        Specific heat capacity of water = 4 200 Jkg-1K-1
        Specific heat capacity of copper = 900 Jkg-1K-1)
  7. Figure 4 below shows a measuring cylinder of height 30cm filled to a height of 20cm with water and the rest occupied by kerosene
    measuring cylinder fig 4
    Given that density of water = 1000Kgm-3, density of kerosene = 800Kgm-3 and atmospheric pressure = 1.03x105 pascals, determine the pressure acting on the base of the container
  8. State Pascal’s principle of transmission of pressure
  9. A helical spring extends by 1 cm when a force of 1.5N is applied to it. Find the elastic potential energy stored in it.
  10. Two immiscible liquids are poured in a container to the levels shown in the diagram below.
    figure 5 immiscible liquids
    If the densities of the liquids A and B are 1g/cm3 and 0.8g/cm3 respectively, find the pressure acting upon solid C at the bottom of the container due to the liquids
  11. The diagram below shows a manometer connected to a gas supply.
    gas supply q14
    The pressure of the gas supply above atmospheric pressure is equivalent to a 20-cm column of water.
    1. Mark the position of the water levels in the manometer when the gas supply is fully turned on
    2. Calculate the pressure of the gas supply (Atmospheric pressure = 1.0x105Pa)
  12. A small nail may pierce an inflated car tyre and remain there without pressure reduction in the tyre. Explain the observation
  13.  
    1. State two ways of increasing pressure in solids
    2. The figure below shows a liquid in a pail
      pail q16
      Suggest a reason why pail manufacturers prefer the shape shown to other shapes
  14. Figure 8 shows a funnel inverted over a light ball.
    figure 8 inverted funnel
    Explain the observation that would be made when streamlines of air is blown strongly down the narrow section of the funnel
  15. A block measuring 20cm x 10cm by 5cm rests on a flat surface. The block has a weight of 3N.
    Determine the maximum pressure it exerts on the surface.
  16. The figure below shows a hydraulic press P which is used to raise a load of 10KN. A force F of 25N is applied at the end of a lever pivoted at O to raise the load
    hydraulic pressq19
    1. State one property of liquid X
    2. Determine the distance x indicated on the press if force on piston B is 100N
  17. A mercury –in-glass barometer shows a height of 70cm. What height would be shown in the barometer at the same place if water density 1.0 x 103kg/m3 is used. (Density of mercury = 13600kgm-3)
  18. The total weight of a car with passengers is 25,000N. The area of contact of each of the four tyres with the ground is 0.025m2. Determine the minimum car tyre pressure
  19.  
    1. The diagram below represents a u-shaped glass tube sealed at one end and containing mercury
      u shaped glass tube
      1. What is the pressure of the gas as shown in the diagram above?
      2. Explain why the gas should be dry if it is to be used to verify a gas law
      3. Describe how the arrangement can be used to verify Boyle’s law.
    2. Use the kinetic theory of gases to explain why;
      1. the pressure of a gas increases with temperature increase
      2. The pressure of a gas decreases as volume increases
  20. The reading on a mercury barometer at Mombasa is 760 mm. Calculate the pressure at Mombasa (density mercury is 1.36 x 104 Kgm-3)
  21. In the diagram below, the U-tube contains two liquids; X and Y which do not mix. If the density of liquid Y is 900Kgm-3 and that of X is 1200Kgm-3, calculate the height of liquid Y
    pressureq21
  22. The figure below is a manometer containing water. Air is blown across the mouth of one tube and the levels of the water changes as the figure below.
    manometerq23
    Explain why the level of water in the right limb of manometer is higher.

Answers

  1. Because of its low density
  2. Atmospheric pressure is the pressure exerted on the surface of the surface of the earth by the weight of the air column
  3. P = hƍg
    = 90 m x 13600kgm-3 x 10Nkg-1 ✓1 mk
                  1000
    = 12240Nm-2 ✓1 mk
  4. The balls move apart since the pressure on the sides is reduced by the fast moving air. High pressure between the balls pushes them outwards.
  5. (76 – 74) × 13600 × 10 = h × 1.25 × 10
        100
    H = 2 × 13600
         100    1.25
    = 217. 6 m
  6.  
    1. This is the heat energy required by a unit mass of a solid to change to liquid state at constant temperature.
    2.  
      1. The heat absorbed by the melting ice at O°C
        H1 = MLf
        = 20kg × 334000Jkg-1 = 6680J
           1000
      2. The heat absorbed by the melted ice (water) to rise to temperature T (answer may be given in terms of T)
        H2 = 20 kg × 4200jkg-1(T − 0)
                1000
        = 84 Joules
      3. The heat lost by the warm water and the calorimeter (answer may be given in terms of T)
        H3 = (200 kg × 4200 Jkg-1k-1 + 80 x 900 )(60 − T) 
                1000                              1000
        = (840 +72) (60 - T)
        = 912 (60 − T )
        = 54720 – 912T
      4. The final temperature of the mixture
        (Specific latent heat of fusion of ice = 334 000 J kg-1
        Specific heat capacity of water = 4 200 J kg-1 K-1
        Specific heat capacity of copper = 900J kg-1 K-1)
        Heat lost = Heat gained.
        6680 + 84T = 54720 – 912T
        912T + 84T = 54720 – 6680
        996T = 48,040
        996       996
        T = 48.2330 ≈ 48.20
  7.  Pressure due to kerosene =ρhg
    = 800 x 0.1 x 10 = 800 pa ✓1
    Pressure due to water = w hwg
    = 1000 x 0.2 x 10 = 2000 pa ✓1
    Atmospheric pressure = 103,000 pa
    Total pressure = 800 + 2000 + 103000
    = 105800 pa✓1
  8. Pressure applied at one pat in a liquid is transmitted equally to all other parts of the enclosed liquid.
  9. Elastic PE = ½ Fe
    = ½ x 1.5 x 0.01;
    = 7.5 x 10-3 J;
  10. Pressure on = Lfg;
    Solid at c = (0.02 x 1000 x 10) + (0.04 x 800 x 10);
    = 200 + 320
    = 520 N/m2 ;
  11.  
    1. Difference in the level of water should be 20cm
    2. Pressure of the gas = Atmospheric pressure + ehg;
      = 1.0 x 105 + 20 x 1000 x 10
                               100
      = 1.0 x 105 + 2.0 x 10Nm-2
      = 1.02 x 105Pa;
  12. - Rubber is elastic; and when a nail is pushed through it stretches and grips firmly the nail without allowing air leakage; or
    – Valve effect pressure from inside causes tyre rubber to press firmly on the nail;
  13.  
    1. Increasing the force (weight)
    2. Slanting sides increase the area supporting the weight of the liquid, hence its effect on the bottom of the container
  14. In the narrow section of the funnel, air moves with high velocity hence followed by 10N pressure and when they emerge into the wider section, they spread, hence more min-low velocity resulting to high pressure. The high pressure below the ball lifts the ball up to the neck of the funnel.
  15. Max pressure = Force/Min Area ✓ 1
        3N      
       0.1 × 0.05 ✓1
    = 600N/m2 ✓ 1
  16.  
    1. – Incompressible
      – Not corrosive
      – Has low freezing point and high boiling point (any one)
  17. h1p1g = h2p2g
    h2 = h1p1
             p2
    = 0.7 x 13600 Kg/m3 ✓1
         1000kgm-3
    = 9.52m
  18. Pressure = Force
                     Area
    =  25000  
      4 x 0.025
    = 250,000Pa
  19.  
    1.  
      1. Atmospheric pressure 1.05 x 105 N/m2
      2. Any water vapour available is near its condensing point. Intermolecular forces are therefore appreciable ✓, so it does not behave like an ideal gas
      3. - Fix a millimeter scale to read the length ( L) of air column B ✓ and the difference in height (h) between the levels A and C✓
        - Adjust the level of C by adding more mercury a little at a time and record the corresponding values of L and h each time ✓
        - A graph of L against h represents Boyle’s law ✓
    2.  
      1. Increase in temperature causes gas molecules to move faster(increases in kinetic energy), ✓ hence they generate greater/ higher impulsive force on impact ✓
      2. With increase in volume gas molecules are sparsely spaced ✓ so the rate of collision is reduced/ lowered
  20. Pressure = ρhg
                 = 1.36 × 104 × 0.7m × 10 N/kg
                 = 95200 N/m2
  21. P1 = P2
    hxexg = hytyg ✓½
    0.06 x 1200 x 10= hy x 900 x 10 ✓½
    hy = 120 x 6
             9000
    = 0.08m
    h =hy + 3cm
    = 8cm + 3cm = 11cm ✓

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