7.1 Define the following terms regarding an internal combustion engine:
7.1.1 Brake power
7.1.2 Torque
7.2 The indicated power diagram represents the power stroke and compression stroke - NSC Mechanical Technology Automotive - Question 7 - 2021 - Paper 1
Question 7
7.1 Define the following terms regarding an internal combustion engine:
7.1.1 Brake power
7.1.2 Torque
7.2 The indicated power diagram represents the power stroke ... show full transcript
Worked Solution & Example Answer:7.1 Define the following terms regarding an internal combustion engine:
7.1.1 Brake power
7.1.2 Torque
7.2 The indicated power diagram represents the power stroke and compression stroke - NSC Mechanical Technology Automotive - Question 7 - 2021 - Paper 1
Step 1
7.1.1 Brake power
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Answer
Brake power is the usable power or actual power developed at the flywheel or at the drive wheels. It is referred to as the power output of the engine during normal operation.
Step 2
7.1.2 Torque
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Answer
Torque is the twisting effort or force applied to a shaft or wheel. It can be defined as the product of the force and the distance from the point of force application to the axis of rotation.
Step 3
7.2 The indicated power diagram represents the power stroke and compression stroke. How do the compression stroke and power stroke affect the pressure?
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Answer
The compression stroke results in a pressure rise, as the piston compresses the air-fuel mixture within the cylinder. Conversely, the power stroke sees a pressure drop as the burning gases expand and push the piston down.
Step 4
7.3.1 Which term is used to describe the volume V1?
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The term used to describe volume V1 is the 'Clearance volume'.
Step 5
7.3.2 Which term is used to describe the volume V2?
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The term used to describe volume V2 is the 'Swept volume'.
Step 6
7.3.3 Calculate the total cylinder volume in cm³.
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Answer
To find the total cylinder volume, use the formula:
extTotalcylindervolume=V1+V2
Given that V1 = 39 cm³ and V2 = 330 cm³, the total cylinder volume equals:
extTotalcylindervolume=39+330=369extcm3
Step 7
7.3.4 Calculate the bore diameter in mm.
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To calculate the bore diameter, we first find the swept volume (SV):
SV=330extcm3
Using the equation for the swept volume:
SV = rac{ ext{π} D^2}{4} imes L
We can rearrange to find D:
D^2 = rac{4 imes SV}{π imes L}
Assuming the stroke length (L) is 65 mm:
D^2 = rac{4 imes 330}{π imes 65}
Calculating gives us:
D = 80.4 ext{ mm}$$
Step 8
7.3.5 Calculate the compression ratio of this cylinder.
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Answer
The compression ratio (CR) can be calculated using:
