SPM Paper 2 Esei: FORCE AND PRESSURE

52
Soalan esei spm kertas 2

description

SPM paper 2. All essay questions in chapter 3: Force and Pressure

Transcript of SPM Paper 2 Esei: FORCE AND PRESSURE

Page 1: SPM Paper 2 Esei: FORCE AND PRESSURE

Soalan esei spm kertas 2

Page 2: SPM Paper 2 Esei: FORCE AND PRESSURE

SPM 2005

Page 3: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 4: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 5: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 6: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 7: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 8: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 9: SPM Paper 2 Esei: FORCE AND PRESSURE

Aerofoil // aerodynamic

SPM 2007

Page 10: SPM Paper 2 Esei: FORCE AND PRESSURE

Higher velocity on the upper surface Lower pressure on the upper surfaceLift force = Difference in pressure x

Area of surface // difference in pressure produce lift force

Page 11: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 12: SPM Paper 2 Esei: FORCE AND PRESSURE

In diagram 9.2 : less bending In diagram 9.3: more bending

Page 13: SPM Paper 2 Esei: FORCE AND PRESSURE

In diagram 9.3 : further // longer landing distanceIn diagram 9.2: shorter (landing distance)

Page 14: SPM Paper 2 Esei: FORCE AND PRESSURE

The higher the lift force, the further the landing distance lift force is directly proportional to landing distance

Page 15: SPM Paper 2 Esei: FORCE AND PRESSURE

• Long jump // triple jump // glider• Relationship between the lift force

and the landing distance is the higher the lift force the further the landing distance // directly proportional

Page 16: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 17: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 18: SPM Paper 2 Esei: FORCE AND PRESSURE

Modification Reason1. Smooth //coat with wax // slippery

2. Reduce friction /resistance //reduce drag

3. Stream line // aerodynamic // torpedo // sharp end // bullet// diagram

4. Reduce friction / resistance / drag

Page 19: SPM Paper 2 Esei: FORCE AND PRESSURE

5. Low density material // strong material // carbon composite // fiber glass // tough material // wood

6.Easy to float // not easy to break // slides faster // increase the speed // light // withstand high force of wave.

7.Water proof // strong // nylon // tough // plastic // synthetic fiber // canvas // synthetic polymer

8.to avoid the sail absorbs water // avoid sail become heavier // sail lighter // not easy to tear off// //small load

Page 20: SPM Paper 2 Esei: FORCE AND PRESSURE

9.Wide // big // large //not too big

10 trap more wind // bigger force // increase resistance towards air // withstand strong wind

Page 21: SPM Paper 2 Esei: FORCE AND PRESSURE

SPM 2009

Page 22: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 23: SPM Paper 2 Esei: FORCE AND PRESSURE
Page 24: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 9.1 shows a boy and his father sitting on two identical beach balls, A and B, respectively.

Their weights are balanced by the buoyant force.

SPM 2010

Page 25: SPM Paper 2 Esei: FORCE AND PRESSURE

What is the meaning of weight?[1 mark]

Force exerted on every object due to gravity

Page 26: SPM Paper 2 Esei: FORCE AND PRESSURE

(i) Using Diagram 9.1, compare the weight of the boy and his father, the volume of the water displaced and the buoyant force acted on both of them.

[3 marks]• The weight of the father is higher• The volume of water displaced by ball B is bigger.•The buoyant force acted on the father is bigger

Page 27: SPM Paper 2 Esei: FORCE AND PRESSURE

State the relationship between the buoyant force and:The volume of water displaced

The weight of water displaced

[2 marks]

As the volume of water displaced increases, the buoyant force increases

Buoyant force = weight of water displaced

Name the physics principle involved.[1 mark]Archimedes principle

Page 28: SPM Paper 2 Esei: FORCE AND PRESSURE

(c) Diagram 9.2 shows what happens when a wooden block is held above the water surface and then released into the water.

When the wooden block is released, it falls into the water and goes completely under the water surface. Then it moves upwards and floats on the water surface. Using the concept of buoyant force, explain why the wooden block moves upwards and then floats on the water surface. [3 marks]

Page 29: SPM Paper 2 Esei: FORCE AND PRESSURE

1st : Buoyant increases when the volume of the immersed wooden block increases.2nd : buoyant force is larger than the weight when the wooden block is moving upwards.3rd : Buoyant force equals to weight of the wooden block when it is floating on the surface of water.

Page 30: SPM Paper 2 Esei: FORCE AND PRESSURE

(d) The State Forestry Department is going to organize a raft competition. As a team leader, you are required to give some suggestions to design a raft which can accommodate 15 participants and be able to move quickly in water.

Page 31: SPM Paper 2 Esei: FORCE AND PRESSURE

Using your knowledge of motion, forces and properties of materials, state and explain the suggestions, based on the following aspects:The shape of the raft [2 marks]The material used for the raft [2 marks]The size of the raft [2 marks]The design of the raft. [4 marks]

Page 32: SPM Paper 2 Esei: FORCE AND PRESSURE

Modification ReasonStreamline shape Reduce water

resistanceLow density material Can float easilyBigger size Can accommodate

more participantsA few layers of Displaced more

water / higher buoyant force

Attach plastic bottle, drum/ polisterene

To increases buoyant force

Attach sail / paddle/ fan / motor

Increase speed

Page 33: SPM Paper 2 Esei: FORCE AND PRESSURE

• Diagram 11.1 shows a hydraulic jack which is used to lift up a car. The working principle of the hydraulic jack is based on the Pascal's principle.

11

SPM 2011

Page 34: SPM Paper 2 Esei: FORCE AND PRESSURE

(a) (i) State the Pascal's principle. [1 mark]

(ii) Explain how the hydraulic jack can be used to lift a car when force F1 is applied on the small piston with cross-section area Al. In your explanation, state the reason why force F2 is greater than force F1. [4 marks]

Pressure transmitted same/uniformly/equally

M1 – force produce pressure / P=F/AM2 – pressure equally/equal / P1=P2 / M3 – pressure act on A2 / pressure produce force / F2 = PA2

M4 – A2 > A1 / A2 greater / ratio A2:A1 greater then 1M2 and M3 – pressure transmitted equally on A2

11

Page 35: SPM Paper 2 Esei: FORCE AND PRESSURE

• Diagram 11.2 shows a hydraulic brake system in a car.

11

Page 36: SPM Paper 2 Esei: FORCE AND PRESSURE

• You are required to investigate the characteristics of a hydraulic brake system as shown in Table 11.

11

Page 37: SPM Paper 2 Esei: FORCE AND PRESSURE

• Explain the suitability of each characteristic of the hydraulic brake system. Determine the most effective hydraulic brake to be used in a car brake system. Give reasons for your choice. [10 marks]

11

Page 38: SPM Paper 2 Esei: FORCE AND PRESSURE

• M1 – incompressible• M2 – fluid can transfer / flow / pressure transmitted /

obey Pascal Principle• M3 – high boiling point• M4 – not change to vapour / not easy to evaporate/boil /

dry out / vaporize / volume remain constant• M5 – high spring constant• M6 – can withstand force / return quickly• M7 – 1:5 / low ratio• M8 – larger force / stop faster / easy to stop / easy to

slow down • M9 – L• M10 – because it is incompressible, has high boiling

point, high spring constant and low ration (1:5)

11

Page 39: SPM Paper 2 Esei: FORCE AND PRESSURE

In a hydraulic brake system, the cross-section area of the pistons in the master cylinder and the front wheel are 2 cm2 and 6 cm2 respectively. A force of 50 N is applied to the piston in the master cylinder.

Calculate (i) the pressure transmitted throughout the

brake fluid. [2 marks] (ii) the force exerted on the piston of the front

wheel. [3 marks]

11

Page 40: SPM Paper 2 Esei: FORCE AND PRESSURE

11

Page 41: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 9.1 shows the positions P and Q at different altitude.

9 Two identical simple barometers are placed at both positions. The height of the mercury column in the barometers are shown in Diagram 9.2.

The density of air at P is 1.2 kgm-3 and the density of air at Q is 1.0 kgm-3

SPM 2012

Page 42: SPM Paper 2 Esei: FORCE AND PRESSURE

What is the meaning of density? [1 mark] Using Diagram 9.1 and Diagram 9.2, compare the altitudes of P and Q, the density of surrounding air and the height of mercury column in the simple barometer at positions P and Q. [3 marks]

Mass per volume

1. Altitude Q is higher2. Density of air at Q is lower3. Height of mercury column Q is lower

9

Page 43: SPM Paper 2 Esei: FORCE AND PRESSURE

State the relationship between the altitude and The density of the airThe atmospheric pressure

[2 marks]The higher the altitude, the lower the density of airThe higher the altitude, the lower the atmospheric pressure

9

Page 44: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 9.3 shows a dropper in a bottle.Using the knowledge of atmospheric pressure, explain how the liquid in the bottle can be sucked into the dropper tube.

1. Press the dropper2. Air inside the dropper is forced out3. Pressure inside decrease / low4. Release the dropper5. Atmospheric pressure push the liquid // difference in pressure

9

Page 45: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 9.4 shows a vacuum cleaner.You are required to give some suggestions to design a vacuum cleaner which can clean the dust faster and effectively. Using the knowledge on atmospheric pressure, Bernoulli’s principle and properties of materials, explain your suggestion based on the following aspects:Material used for the body of vacuum cleaner.Material used for the hoseThe size of the fanThe size of the floor nozzleThe diameter of wand[10 marks]

9

Page 46: SPM Paper 2 Esei: FORCE AND PRESSURE

Material Low densityStrong / plastic

Lighter Not easily break

Material of the hose

Flexible / elasticStrong

Easy to adjustDoes not tearTwist/ moveable

Size of fan Bigger fan More air can be sucked / lower pressure inside

Floor nozzle Wider floor nozzle

More dust is sucked

Diameter of the wand

Small diameter Lower pressure / high velocity

9

Page 47: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 11.1 shows the cross section of the wing of an aeroplane.

Name the shape of the aeroplane’s wing. ………………………………………………………..[1 mark]

Aerofoil

11

Page 48: SPM Paper 2 Esei: FORCE AND PRESSURE

Explain how the aeroplane can lift up from the track when it moves at high speed during take off. [4 marks]

√1 Air faster (at) top√2 Small pressure (at) upper√3 difference in pressure // P2 – P1 / P1 – P2 √4 Lift / force (idea of upward force) // F = PA // F // PA // label diagram√5 Bernoulli’s principle Max 4 marks

11 SPM 2013

Page 49: SPM Paper 2 Esei: FORCE AND PRESSURE

An aeroplane with mass of 3.6 x 105 kg and total surface area of 460 m2 is at a constant height. The resultant force acting on the aeroplane at that moment is zero. (i) Calculate the weight of the aeroplane. [1 mark] (ii) Determine the lifting force acting on the aeroplane. [1 mark] (iii) Based on the answer in 11(b)(ii), calculate the pressure difference between the upper and lower surfaces of the wings of the aeroplane. [3 marks]

3.6 x 106 N

3.6 x 106 N

√1 3.6 x 106 = P1A – P2A√2 Pressure difference = (3.6 x 106/460) // (3.528 x 106)/460 √3 7826.09 Pa

11

Page 50: SPM Paper 2 Esei: FORCE AND PRESSURE

Diagram 11.2 shows four design of perfume sprays, P, Q, R and S with different specifications. You are required to determine the most suitable design of a perfume spray to produce a fine spray. Study the specifications of the four perfume sprays based on the following aspects:(i) Size of the squeeze bulb.(ii) Elasticity of the squeeze bulb.(iii) Shape of the mid tube(iv) Size of the nozzle.Explain the suitability of each aspect and then determine the most suitable design of a perfume spray. Give reason for your choice.[10 marks]

11

Page 51: SPM Paper 2 Esei: FORCE AND PRESSURE

11

Page 52: SPM Paper 2 Esei: FORCE AND PRESSURE

√1 Big √2 contain more air, produce greater pressure √3 Elastic √4 Less compression force required // easy to return to original shape √5 narrower at the middle of the tube √6 Air travel faster to create lower pressure √7 Small size √8 Liquid carried out from the nozzle in a tiny droplets // large coverage // increase coverage / area √9 Perfume spray R √10 Big size of squeeze-bulb, elastic squeeze-bulb, narrower shape of the tube at the middle and small size of nozzle

11