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MDCAT ENGLISH MCQs
Biology etea medical mcqs
etea Chemistry
Physics
BS Nursing

Author: ETEA MCQS.COM

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Displacement is a physical quantity that is defined by:

Magnitude only
Direction only
Both magnitude and direction
The total path covered

ETEA MCQS.COM
FORCE AND MOTION Displacement

The component method is particularly useful when:

Only two vectors are involved
More than two vectors need to be added
All vectors are perpendicular
All vectors have the same magnitude

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Addition of Vectors (Rectangular Components

An object moving with constant velocity has a net force acting on it that is:

Greater than zero
Less than zero
Zero
Equal to its velocity

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Addition of Vectors (Rectangular Components

Consider four forces: 5N East, 5N West, 10N North, 10N South. The net force is:

10 N
20 N
30 N
0 N

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Addition of Vectors (Rectangular Components

An airplane flies with velocity V1. The wind blows with velocity V2. The plane’s ground velocity is V3. For the plane to be in equilibrium (hovering), which must be true?

V1 + V2 = V3
V1 + V2 = 0
V1 = V2
V3 must be very large

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Addition of Vectors (Rectangular Components

A force of (3î + 4ĵ) N and a force of (-3î – 4ĵ) N act on a body. The body will be in:

Equilibrium
Uniform motion
Uniform acceleration
Non-uniform acceleration

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Addition of Vectors (Rectangular Components

Three forces 20 N East, 30 N North, and 10 N West act on a body. The force required to produce equilibrium is:

10 N East, 30 N North
10 N West, 30 N South
30 N East, 30 N South
10 N West, 30 N North

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Addition of Vectors (Rectangular Components

If Rx = ΣFx and Ry = ΣFy, an object is in equilibrium only if:

Rx = Ry
Rx > Ry
Rx = 0 and Ry = 0
R = Rx + Ry

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Addition of Vectors (Rectangular Components

Three forces are F1=6î-8ĵ, F2=-3î+4ĵ, F3=-3î+4ĵ. The object is:

In equilibrium
Accelerating North
Accelerating South
Accelerating East

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Addition of Vectors (Rectangular Components

The term ‘equilibrant’ refers to a force that:

Is the resultant of all forces
Causes an object to accelerate
Brings an object into equilibrium
Is always perpendicular to the resultant

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Addition of Vectors (Rectangular Components

An object is at rest. The net force on it is:

Increasing
Decreasing
Zero
Equal to its mass

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Addition of Vectors (Rectangular Components

If three vectors of equal magnitude can produce equilibrium, they must be arranged at angles of:

90°, 90°, 180°
60°, 60°, 240°
120°, 120°, 120°
45°, 45°, 270°

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Addition of Vectors (Rectangular Components

Forces F1 = (5, 5), F2 = (-10, 5), F3 = (5, -10) act on a point. The resultant is:

(0, 0)
(10, 10)
(0, 20)
(20, 0)

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Addition of Vectors (Rectangular Components

To find a fourth force that produces equilibrium with three known forces, one must find a force that is:

Equal to the resultant of the three forces
Equal in magnitude but opposite in direction to the resultant of the three forces
The average of the three forces
The largest of the three forces

ETEA MCQS.COM
Addition of Vectors (Rectangular Components

A force F1 = 10 N East and F2 = 20 N West act on a body. A third force F3 is needed for equilibrium. F3 must be:

30 N West
30 N East
10 N West
10 N East

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Addition of Vectors (Rectangular Components

Three forces F1=(10î) N, F2=(-15î) N, and F3=(5î) N are acting on a body. The body is:

Accelerating
In equilibrium
Moving at constant velocity
Both B and C are possible

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Addition of Vectors (Rectangular Components

Three vectors A, B, and C are added by the component method. The x-component of the resultant is:

Ax + Bx + Cx
Ax * Bx * Cx
(Ax+Bx+Cx)/3
√(Ax²+Bx²+Cx²)

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Addition of Vectors (Rectangular Components

Four forces act on a point: 10N North, 20N South, 5N East, 15N West. The resultant force is:

10 N South-West
14.1 N South-West
10 N North-East
14.1 N North-East

ETEA MCQS.COM
Addition of Vectors (Rectangular Components

If ΣFx = 0 and ΣFy = 0 for a set of forces, the object is in:

Rotational equilibrium
Translational equilibrium
Dynamic motion
Unstable equilibrium

ETEA MCQS.COM
Addition of Vectors (Rectangular Components

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