The propulsive power of the rocket is (where v₁ = Jet velocity, and v₂ = Aircraft velocity)

Compressors, Gas Turbines and Jet Engines
The propulsive power of the rocket is (where v₁ = Jet velocity, and v₂ = Aircraft velocity)

(v₁ - v₂)²/g

(v₁² -v₂²)/g

(v₁ - v₂)²/2g

(v₁² -v₂²)/2g

(v₁ - v₂)²/g

(v₁² -v₂²)/g

(v₁ - v₂)²/2g

(v₁² -v₂²)/2g

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Compressors, Gas Turbines and Jet Engines
In n₁ and n₂ are the indices of compression for the first and second stage of compression, then the ratio of work-done on the first and second stages (W₁/W₂) with perfect intercooling is given by

W₁/W₂ = n₂(n₁ - 1)/n₁(n₂ - 1)

W₁/W₂ = n₂/n₁

W₁/W₂ = n₁/n₂

W₁/W₂ = n₁(n₂ - 1)/n₂(n₁ - 1)

W₁/W₂ = n₂(n₁ - 1)/n₁(n₂ - 1)

W₁/W₂ = n₂/n₁

W₁/W₂ = n₁/n₂

W₁/W₂ = n₁(n₂ - 1)/n₂(n₁ - 1)

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Compressors, Gas Turbines and Jet Engines
It is not possible to use closed gas turbine cycle in aeronautical engines because

None of these

It requires cooling water for its operation

It is inefficient

It is bulky

None of these

It requires cooling water for its operation

It is inefficient

It is bulky

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Compressors, Gas Turbines and Jet Engines
Water gas is produced by

Carbonisation of coal

Passing air and a large amount of steam over waste coal at about 65°C

Passing steam over incandescent coke

Partial combustion of coal, eke, anthracite coal or charcoal in a mixed air steam blast

Carbonisation of coal

Passing air and a large amount of steam over waste coal at about 65°C

Passing steam over incandescent coke

Partial combustion of coal, eke, anthracite coal or charcoal in a mixed air steam blast

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Compressors, Gas Turbines and Jet Engines
Gas turbine blades are given a rake

In the direction of motion of blades

Opposite to the direction of motion of blades

Equal to zero

Depending on the velocity

In the direction of motion of blades

Opposite to the direction of motion of blades

Equal to zero

Depending on the velocity

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Compressors, Gas Turbines and Jet Engines
Gas turbine cycle with regenerator

Decreases heat loss is exhaust

Allows high compression ratio

Increases thermal efficiency

Allows operation at very high altitudes

Decreases heat loss is exhaust

Allows high compression ratio

Increases thermal efficiency

Allows operation at very high altitudes

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Compressors, Gas Turbines and Jet Engines

Compressors, Gas Turbines and Jet Engines The propulsive power of the rocket is (where v₁ = Jet velocity, and v₂ = Aircraft velocity)

Compressors, Gas Turbines and Jet Engines In n₁ and n₂ are the indices of compression for the first and second stage of compression, then the ratio of work-done on the first and second stages (W₁/W₂) with perfect intercooling is given by

Compressors, Gas Turbines and Jet Engines It is not possible to use closed gas turbine cycle in aeronautical engines because

Compressors, Gas Turbines and Jet Engines Water gas is produced by

Compressors, Gas Turbines and Jet Engines Gas turbine blades are given a rake

Compressors, Gas Turbines and Jet Engines Gas turbine cycle with regenerator

Compressors, Gas Turbines and Jet Engines
The propulsive power of the rocket is (where v₁ = Jet velocity, and v₂ = Aircraft velocity)

Compressors, Gas Turbines and Jet Engines
In n₁ and n₂ are the indices of compression for the first and second stage of compression, then the ratio of work-done on the first and second stages (W₁/W₂) with perfect intercooling is given by

Compressors, Gas Turbines and Jet Engines
It is not possible to use closed gas turbine cycle in aeronautical engines because

Compressors, Gas Turbines and Jet Engines
Water gas is produced by

Compressors, Gas Turbines and Jet Engines
Gas turbine blades are given a rake

Compressors, Gas Turbines and Jet Engines
Gas turbine cycle with regenerator