Air in the balloon expands thereby increasing the volume of balloon. The balloon displaces more air raising the up thrust it experiences from the air.
johnmulu answered the question on June 2, 2017 at 12:36
- Figure 19 shows two spheres made of wax each of mass 0.10 kg held in a liquid by strings A and B. (Solved)
Figure 19 shows two spheres made of wax each of mass 0.10 kg held in a liquid by strings A and B.
If the upthrust on each sphere is 1.05 N, determine the tension in each string. (acceleration due to gravity g = 10ms-2)
Date posted: June 2, 2017. Answers (1)
- Figure 2 shows a uniform bar in equilibrium. (Solved)
Figure 2 shows a uniform bar in equilibrium.
When water is added into the beakers A and B until the weights are submerged, it is observed that the bar tips towards B. Explain this observation.
Date posted: June 2, 2017. Answers (1)
- Figure 7 represents a block of uniform cross sectional area of 6.0 cm2 floating on two liquids A and B. The lengths of the block in each liquid are as shown. (Solved)
Figure 7 represents a block of uniform cross sectional area of 6.0 cm2 floating on two liquids A and B. The lengths of the block in each liquid are as shown.
Give that the density of liquid A is 800 kgm-3 and that of liquid B is 1000 kgm-3, determine the:
(i) Weight of liquid A displaced
(ii) Weight of liquid B displaced.
Date posted: June 2, 2017. Answers (1)
- Figure 13 shows a pendulum bob suspended by a thread moving in a horizontal circle. (Solved)
Figure 13 shows a pendulum bob suspended by a thread moving in a horizontal circle.
(i) Name two forces acting on the pendulum bob as it moves.
(ii) State what happens to each of the forces when the angular velocity of the pendulum bob is increased.
(iii) State two applications of uniform circular motion in daily life.
Date posted: June 2, 2017. Answers (1)
- Figure 7 shows an object at the end of a light spring balance connected to a peg using a string. The object is moving in a circular path on a smooth horizontal table with a constant speed. (Solved)
Figure 7 shows an object at the end of a light spring balance connected to a peg using a string. The object is moving in a circular path on a smooth horizontal table with a constant speed.
(i) State the purpose of banking roads at bends.
(ii) State a reason why the object is accelerating while its speed remains constant.
(iii) Give that the mass of the object is 0.5 kg and it is moving at a speed of 8 ms-1 at a radius of 2m, determine the reading on the spring balance.
Date posted: June 2, 2017. Answers (1)
- Figure 10 shows the path of an object of mass m attached to a string of length r when whirled in a vertical circle at a constant speed V. A is the highest point on its path.(Solved)
Figure 10 shows the path of an object of mass m attached to a string of length r when whirled in a vertical circle at a constant speed V. A is the highest point on its path.
State the forces that provide the centripetal force on the object when it is at point A.
Date posted: June 2, 2017. Answers (1)
- Figure 11 shows a stone attached to the end of a string moving in a horizontal circle with a uniform speed of 2 ms-1. When the stone reaches point X on the circle, the string breaks
(Solved)
Figure 11 shows a stone attached to the end of a string moving in a horizontal circle with a uniform speed of 2 ms-1. When the stone reaches point X on the circle, the string breaks
State the magnitude of the velocity after the string breaks. and give a reason
Date posted: June 2, 2017. Answers (1)
- Three masses are placed on a rotating table at distances 6 cm, 9 cm and 12 cm respectively (Solved)
Three masses are placed on a rotating table at distances 6 cm, 9 cm and 12 cm respectively from the centre of rotation. When the frequency of rotation is varied, it is noted that each mass slides off at a different frequency of rotation of the table. Table 1 shows the frequency at which each mass slides off.
d on the table before placing the masses. Explain the effect of this on the frequency at which each mass slides off.
Date posted: June 2, 2017. Answers (1)
- Figure 12 shows masses A, B and C placed at different points on a rotating table. The angular velocity, of the table can be varied. (Solved)
Figure 12 shows masses A, B and C placed at different points on a rotating table. The angular velocity, of the table can be varied.
State two factors that determine whether a particular mass slides off the table or not.
Date posted: June 2, 2017. Answers (1)
- Figure 6 shows the path taken by a matatu traveling on a horizontal ground (a winding road). (Solved)
Figure 6 shows the path taken by a matatu traveling on a horizontal ground (a winding road).
The speed of the matatu is constant. Identify with reason the point along the path which a load placed loosely on the rack (carrier) of the matatu is most likely to roll off.
Date posted: June 2, 2017. Answers (1)
- A child of mass 20 kg sits on a swing of length 4 m and swings through a vertical height of 0.9 m as shown in figure 2. (Solved)
A child of mass 20 kg sits on a swing of length 4 m and swings through a vertical height of 0.9 m as shown in figure 2.
Determine:
(i) Speed of the child when passing through the lowest point.
(ii) Force exerted on the child by the seat of the swing when passing through the lowest point.
Date posted: June 2, 2017. Answers (1)
- Figure 8 shows a container with small holes at the bottom in which wet clothes have been put. When the container is whirled in air at high speed as shown, it is observed that the clothes dry faster. (Solved)
Figure 8 shows a container with small holes at the bottom in which wet clothes have been put. When the container is whirled in air at high speed as shown, it is observed that the clothes dry faster.
Explain how the rotation of the container causes the clothes to dry faster.
Date posted: June 2, 2017. Answers (1)
- Figure 8 shows a car of mass M moving along a curved part of the road with a constant speed. (Solved)
Figure 8 shows a car of mass M moving along a curved part of the road with a constant speed.
Explain the fact that the car is more likely to slide at B than at A if the speed is not changed.
Date posted: June 2, 2017. Answers (1)
- Figure 16, shows a graph of magnification against object distance, for an object placed in front of a lens of focal length 20 cm. (Solved)
cFigure 16, shows a graph of magnification against object distance, for an object placed in front of a lens of focal length 20 cm.
Using the graph;
(i) State the effect on the size of the image when the object distance is increased from 25 cm.
(ii) Determine the distance between the object and the lens when the image is same size as the object.
(iii) Determine the image distance when the object distance is 25 cm.
Date posted: June 2, 2017. Answers (1)
- The figure 4 shows the diagram of set-up to investigate the variation of centripetal force with the radius, r, of the circle in which a body rotates. (Solved)
The figure 4 shows the diagram of set-up to investigate the variation of centripetal force with the radius, r, of the circle in which a body rotates.
Describe how the set-up can be used to carry out the investigation
Date posted: June 2, 2017. Answers (1)
- In an experiment, a pin a converging lens and plane mirror are arranged as shown in Figure 4.(Solved)
In an experiment, a pin a converging lens and plane mirror are arranged as shown in Figure 4. The distance between the pin and the plane mirror is L cm while the distance between the lens and the plane mirror is q cm. The position of the pin is adjusted until its tip coincides with its real image.
State the focal length of the lens.
Date posted: May 29, 2017. Answers (1)
- Figure 7 shows how rays from a distant and a near object are focused inside a human eye with a certain defect. (Solved)
Figure 7 shows how rays from a distant and a near object are focused inside a human eye with a certain defect.
Name the defect and state the cause of this defect.
Date posted: May 29, 2017. Answers (1)
- Figure 12 shows the features of a simple camera. (Solved)
Figure 12 shows the features of a simple camera.
(i) Name the parts labeled A and B.
(ii) A still object is placed at a certain distance from the camera. Explain the adjustments necessary for a clear image of the object to be formed.
(iii) State the functions of the shutter and the parts labeled A and B
Date posted: May 29, 2017. Answers (1)
- Figure 8 shows an experimental set-up consisting of a mounted lens L, a screen, S, a meter rule and a candle. (Solved)
Figure 8 shows an experimental set-up consisting of a mounted lens L, a screen, S, a meter rule and a candle.
(i) Describe how the set-up may be used to determine the focal length, f, of the lens.
(ii) State the reason why the set-up would not work if the lens were replaced with a diverging lens.
Date posted: May 29, 2017. Answers (1)
- The diagram in Figure 3 shows a certain eye defect. (Solved)
The diagram in Figure 3 shows a certain eye defect.
Name the defect.
Date posted: May 29, 2017. Answers (1)