| MCQ SET |
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Course Code and Name:
(AEC802) Vehicle Dynamics ( CBCGS) |
Institute
Name: Theem College of Engineering |
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Class: BE Automobile |
Department : Automobile
Engineering |
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Semester: VIII |
Name of Teacher : Prof Mohd Raees |
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| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct Answer |
| A |
B |
C |
D |
| 1 |
1 |
the steep angles of wind
shield leads to? |
increase in drag |
decrease in drag |
no chaange in drag |
increase or decrease of drag |
A |
| 2 |
the steep angles of wind
shield leads to? |
increase in solar heating |
decrease in solar heating |
no chaange in solar heating |
increase or decrease solar
heating |
B |
| 3 |
Can shielding wheel and
wheel well reduce protuberance drag? |
Yes |
No |
unpredictable |
irrelevent |
A |
| 4 |
Can the decrease in
clearence underside the vehicle and road reduce underbody drag? |
Yes |
No |
unpredictable |
irrelevent |
A |
| 5 |
the shallow angles of wind
shield leads to? |
increase in solar heating |
decrease in solar heating |
no chaange in solar heating |
increase or decrease solar
heating |
A |
| 6 |
As the ststic pressure over
the vehicle hood increases the velocity will |
irrelevant |
constant |
increase |
decrease |
C |
| 7 |
At distance well above
vehicle where the stream lines are straight, the static pressure here is ? |
constant |
increases |
decreases |
same as ambient |
D |
| 8 |
with increase in
temperature of the tire thr rolling resistance coefficient of the tire will? |
increases |
decreases |
no change |
no dependency |
B |
| 9 |
The pressure at the back
side of a vehicle is same as the front side |
no drag is produced |
drag is produced |
drag increases |
drag decreases |
A |
| 10 |
Skin drag is due to |
slip |
friction |
pressure drop |
skid of air |
B |
| 11 |
The point were the boundary
layer seperates is called as ? |
detachable point |
point of inflextion |
seperation point |
null point |
C |
| 12 |
The moment along lateral
axis of the vehicle is called? |
Bouncing |
Yawing |
Rolling |
Pitcing |
D |
| 13 |
The moment of a vehicle
along longitudinal axis of the vehicle is called? |
Bouncing |
Yawing |
Rolling |
Pitcing |
C |
| 14 |
The protuberance drag is
due to? |
front shield |
roof |
wheel and wheel well |
bonnet |
C |
| 15 |
The protuberance drag is
due to? |
front shield |
roof |
Drip rail |
bonnet |
C |
| 16 |
When stagnating points kept
low on the frontal profile of vehicle the drag obtained is? |
no change |
Irrelevant |
Maximum |
Minimum |
D |
| 17 |
The deck lid spoiler |
reduces drag |
increases drag |
produces no change in drag |
none of the above |
B |
| 18 |
The resistance offered by
ground towards movement of wheel is called |
ground reistance |
slip resistance |
rolling resistance |
aerodynamic resistance |
A |
| 19 |
the shallow angles of wind
shield leads to? |
increase in drag |
decrease in drag |
no chaange in drag |
increase or decrease of drag |
B |
| 20 |
which is the aerodynamic
aid? |
wheel and wheel well |
bumper spoiler |
front shield |
roof |
B |
| 21 |
The flow blocking surfaces
installed at the perimeter of the radiator, to improve flow through radiator
at low vehicle speed is called? |
Car head |
Radiatoe |
Air blocker |
Air dams |
D |
| 22 |
The deck lid spoiler |
reduces rear lift |
increases rear lift |
produces no change in lift |
none of the above |
A |
| 23 |
The deck lid spoiler |
stabilized vortices |
initiates vortice formation |
donot effect vortices |
un-stabilized vortices |
A |
| 24 |
Underbody drag is due to
following components? |
Windshield |
suspension and exhaust system |
Bonnet |
Roof |
B |
| 25 |
For compressible flow which
equation is used |
Bernoullis equation |
Euler's equation |
Newtons equation |
flow equation |
B |
| 26 |
For incompressible flow
which equation is used |
Bernoullis equation |
Euler's equation |
Newtons equation |
flow equation |
A |
| 27 |
bernoullis equation is
derived from |
Newtons 3nd law |
Euler's equation |
Newtons 1nd law |
Newtons 2nd law |
D |
| 28 |
the bernoullis equation is
given by total pressure which is |
sum of static and dynamic
pressure |
static pressure |
dynamic pressure |
internal pressure |
A |
| 29 |
Aerodynamic resistance
becomes equal to rolling resistance at what speeds ? |
10-20mph |
20-30mph |
50-60mph |
70-80mph |
C |
| 30 |
what percentage reduction
in overall drag coeffiient is obtained by rounding low hood |
85 to 95% |
5 to 15% |
65 to 85% |
45 to 65% |
B |
| 31 |
the fornumale
0.5*density*(Velocity^2) |
static pressure |
dynamic pressure |
internal pressure |
external pressure |
B |
| 32 |
The relative velocity when
the streamline hits the bumper is? |
40kmph |
Zero |
high |
medium |
B |
| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct Options |
| A |
B |
C |
D |
| 2 |
1 |
In comparison with a radial
tyre, one advantage of a bias ply tyre is
|
Longer life |
Lower rolling resistance |
Smoother ride at low speeds |
less life |
C |
| 2 |
In radial tyres |
One ply layer runs diagonally one way and
another layer runs diagonally the other way |
All plies run parallel to one
another and vertical to tyre bead |
Inner tubes are always used |
One ply layer runs parallel
one way and another layer runs diagonally the other way |
A |
| 3 |
The basic purpose of tyres
is to
|
Grip the road and provide
good traction |
Substitute for springs |
Act as brake |
Act as suspension |
A |
| 4 |
In bias ply tyres |
All plies run parallel to one
another |
Belts of steel mesh are used in the tyres |
One ply layer runs diagonally
one way and another layer runs diagonally the other way |
Inner tubes are always used |
C |
| 5 |
The main function of the tread pattern on
tyre is that |
The tread grooves pass air
between the tyre and road surface, thereby preventing tyre from overheating |
The crests between the tread
grooves absorb road noise |
In wet conditions, the tread
grooves expel water that is drawn between the tyre and road surface |
The tread pattern protects
the tyre's inner carcass from small stones and pieces of glass |
C |
| 6 |
Which part of the
automobile tyre is subjected to greatest flexing action? |
Bead |
Side wall |
Shoulder |
Tread |
B |
| 7 |
An under-inflated tyre will
wear the tread most |
Near the centre |
Near the edges |
In the lateral direction |
In the cross direction |
B |
| 8 |
The basic purpose of tyre
rotation on automobiles is to |
Avoid ply separation |
Equalize wear |
Get better ride |
Act as brake |
B |
| 9 |
The basic purpose of
providing caster angle on wheels is to |
Prevent uneven tyre wear |
Maintain directional control |
Bring the road contact of the
tyre under the point of load |
Compensate for wear in the
steering linkage |
B |
| 10 |
Two general types of tyres
are |
Tube type and tubeless |
Solid and tubeless |
Air and pneumatic |
Split rim and drop centre |
A |
| 11 |
An overinflated tyre will
wear the tread most near the |
Edges |
Corners |
Centre |
Lateral direction |
C |
| 12 |
Under acceleration and
braking, additional slip in the contact patch is observed as a result of
deformation of rubber elements in the Tyre tread, as they deflect to develop
and sustain the force called. |
Compressible force |
Friction force |
Tensile force |
Newton force |
B |
| 13 |
SAE Tyre axis system
describes the following factors |
Characteristics of Tyre |
Forces and Moments acting on
the Tyre |
Tubeless and Tube Tyre |
Wheel alignment and Wheel
balancing |
B |
| 14 |
For a given Tyre the
cornering stiffness is dependent on following two main variables |
Tyre size and type of Tyre |
Number of plies and Cord
angle |
Wheel width and tread design |
Load and inflation pressure |
D |
| 15 |
Two important angles
associated with a rolling wheel are |
Slip angle and Camber angle |
Camber angle and king pin
inclination |
Toe-in and Toe-out |
Caster and Camber angle |
A |
| 16 |
Zero lateral force
coincides with the zero slip angle for |
Tubeless Tyre |
Actual Tyre |
Tube Tyre |
An ideal Tyre |
D |
| 17 |
The slope of lateral force
curve evaluated at zero slip angle for a tyre is known as |
Cornering stiffness |
Vertical stiffness |
Longitudinal stiffness |
Lateral stiffness |
A |
| 18 |
In cornering bias plies
allow the tread to roll under, putting more load on |
Inner ribs |
Side walls |
Outer ribs |
Centre |
C |
| 19 |
One of the important
functions of a Tyre is to develop the following type of forces to control the
vehicle |
Normal forces |
Tractive forces |
Frictional forces |
Lateral forces |
D |
| 20 |
The lateral inclination of
the Tyre is called |
slip angle |
King pin inclination |
Castor angle |
Camber angle |
D |
| 21 |
One of the components of
outward force at each end of the car while cornering is known as: |
Cornering thrust |
Camber thrust |
Castor thrust |
Lateral thrust |
D |
| 22 |
The aspect ratio (expressed
in percentage) of the tyre is defined as the ratio of |
Section width to section
height |
Section height to section
width |
Wheel diameter to section
height |
Wheel diameter to section
width |
B |
| 23 |
If r=effective rolling
radius, w=angular velocity of the wheel and v=forward velocity: then the
Slip(S%) produced in the contact patch is given by: |
S%=(1-rw/v)x100 |
S%=(1-v/rw)x100 |
S%=(v/rw-1)x100 |
S%=(rw-1/v)x100 |
A |
| 24 |
When a rolling pneumatic
tyre is subjected to a lateral force, the tyre drift’s to side. Which
angle will be created between
direction of tyre heading and direction of travel. |
Camber angle |
Caster angle |
Slip angle |
Cornering angle |
C |
| 25 |
When the slip angle is zero the lateral
force is |
20 |
0 |
1 |
8 |
B |
| 26 |
The cornering coefficient
is the cornering stiffness normalized by the |
Lateral load |
Vertical load |
Longitudinal load |
No load |
B |
| 27 |
Centre plane of the tyre
normal to the axis of rotation is known as |
Wheel Centre |
Wheel Plane |
Centre of tyre contact |
Slip angle |
B |
| 28 |
Elements of the tyre tread
passing through the tyre contact patch exerts a |
Yeild stress |
Tensile stress |
Shear stress |
Compressive stress |
C |
| 29 |
The plies are reffered to
as |
Beads |
Tread |
Cords |
Carcass |
D |
| 30 |
In case of wore wheel the
vehicle weight is supported by the wires in |
Tension |
Compression |
Bending |
Shear |
A |
| 31 |
The term ply rating with
the refernce to a tyre refers to |
Actual no.of plies |
Recommended inflation
pressure |
Aspect ratio |
Rated Strength |
D |
| 32 |
Tread distortion is least
on |
Radial ply tyres |
Cross ply tyres |
Cross ply belted tyres |
Bias ply tyres |
A |
| 33 |
Out of round break drums
cause the tyres to wear |
On the inside |
On the outside |
In single spots |
Uniformly all round |
C |
| 34 |
The effect of having excess camber is |
Excessive steering alignment
torque |
Hard steering |
Too much traction |
Uneven tyre wear |
D |
| 35 |
_____________ is the
characteristic that describes the tire's tendency to roll like a cone |
Conicity |
Ply steer |
Radial run-out |
Lateral run-out |
A |
| 36 |
___describes the lateral
force a tire generates due to asymmetries in its carcass as is rolls forward
with zero slip angle |
Conicity |
Ply steer |
Radial run-out |
Lateral run-out |
B |
| 37 |
______is also produced when
a tire rolls at a non zero camber angle |
Aligning moment |
Radial run-out |
Slip angle |
Lateral run-out |
A |
| 38 |
What is the angle known
between a rolling wheel's actual direction of travel and the direction
towards which it is pointing? |
Caster |
Camber |
Slip angle |
Side thrust Angle |
C |
| 39 |
Which statement is correct
for the given diagram |
Modal resonance of tyre in vertical plane showing
second mode |
Modal resonance of tyre in vertical plane showing
Third mode |
Tyres Cross ply direction |
Modal resonance of tyre in vertical plane showing
Fourth mode |
A |
| 40 |
Which statement is correct
for the given diagram |
Modal resonance of tyre in vertical plane showing
second mode |
Modal resonance of tyre in vertical plane showing
Third mode |
Tyres Cross ply direction |
Modal resonance of tyre in vertical plane showing
Fourth mode |
B |
| 41 |
In the following diagram
corrosponding to tyre what denotes by letter "X"? |
Conicity |
Ply steer |
Radial run-out |
Lateral run-out |
B |
| 42 |
In the following diagram
corrosponding to tyre what denotes by letter "X"? |
Conicity |
Ply steer |
Radial run-out |
Lateral run-out |
A |
| 43 |
In the Tyre magic formula
developed by Hans Bastiaan Pacejka, What the letter "B" denotes? |
Shape Factor |
Peak value |
Stiffness Factor |
Curvatutre factor |
C |
| 44 |
In the Tyre magic formula
developed by Hans Bastiaan Pacejka, What the letter "C" denotes? |
Shape Factor |
Peak value |
Stiffness Factor |
Curvatutre factor |
A |
| 45 |
In the Tyre magic formula
developed by Hans Bastiaan Pacejka, What the letter "D" denotes? |
Shape Factor |
Peak value |
Stiffness Factor |
Curvatutre factor |
B |
| 46 |
In the Tyre magic formula
developed by Hans Bastiaan Pacejka, What the letter "E" denotes? |
Shape Factor |
Peak value |
Stiffness Factor |
Curvatutre factor |
D |
| 47 |
Select the correctTyre
magic formula developed by Hans Bastiaan Pacejka |
y=D sin [ C
arctan{Bx-E(B-arctanBx)}] |
y=D sin [ C
arcsec{Bx-E(Bx-arctanBx)}] |
y=D cos [ C
arctan{x-E(Bx-arctanBx)}] |
y=D sin [ C
arctan{Bx-E(Bx-arctanBx)}] |
D |
| 48 |
The plot on a chart
representing a tire’s maximum grip in both the lateral (cornering left or
right) and longitudinal (braking and accelerating) is known as: |
Curvatutre factor |
Friction Circle |
Slip angle plot |
Conicity |
B |
| 49 |
The most usual cause of
excessive tyre wear is: |
Sudden braking |
Over inflation |
Under inflation |
excessive speed |
C |
| 50 |
To equalize tyre wear, it
is suggested that tyres be rotated from one wheel to another every |
80 kms |
800 kms |
8000 kms |
80000 kms |
C |
| 51 |
The main function of the
tread pattern on tyre is that: |
The tread grooves pass air
between the tyre and road surface, thereby preventing tyre from overheating |
The crests between the tread
grooves absorb road noise |
In wet conditions, the tread
grooves expel water that is drawn between the tyre and road surface |
The tread pattern protects
the tyre's inner carcass from small stones and pieces of glass |
C |
| 52 |
__________has been trated
as a mechanism for generating forces by which a vehicle may be controlled in
braking and turning |
Tire |
Steering column |
Differential |
Propeller shaft |
A |
| 53 |
With regard to ride
dynamics what is seen to behave primarily as a spring which absorbs the
roughness feature. |
Tire |
Steering column |
Differential |
Propeller shaft |
A |
| 54 |
With regard to Tyre
dynamics , what is define as the ratio of acceleration on the axle per unit
of road displacement at the contact patch |
Resonances |
Transmissibility |
Footprint Stiffness |
Magnification factor |
B |
| 55 |
Using Tyre magic formula estimate breaking effort
developed by the tire with a normal load 6KN at a skid of -25 percent. ( take
B=0.210, C=1.67, D=6090 and E=0.686) |
( 3173.74 N ) |
( - 3173.74 N ) |
( - 5178.56 N ) |
( 5178.56 N ) |
B |
| 56 |
Using Tyre magic formula estimate breaking effort
developed by the tire at a skid of -25
percent. ( take B=0.210, C=1.67, D=5090 and E=0.686) |
( 3173.74 N ) |
( - 3173.74 N ) |
( - 2652.60 N ) |
( 2652.60 N ) |
C |
| 57 |
Using Tyre magic formula estimate breaking effort
developed by the tire with a normal load 6KN at a skid of -25 percent. ( take
B=0.210, C=1.87, D=6090 and E=0.686) |
( 3173.74 N ) |
( - 1433.4 N ) |
( - 5178.56 N ) |
( 5178.56 N ) |
B |
| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct Answer |
| A |
B |
C |
D |
| 3 |
1 |
The suspension affects |
ride and directional response |
Stability |
handling |
ride |
A |
| 2 |
Solid suspension used now a
days mainly for |
passenger cars |
racing cars |
two wheelers |
heavy vehicles |
D |
| 3 |
The basic suspension
movements are |
pitching, rolling and yawing |
pitching, rolling and bouncing |
bouncing, rolling and yawing |
pitching, bouncing and yawing |
B |
| 4 |
The main disadvanatge of
solid suspensions |
wheel tramp and shimmy |
camber change |
more tyre wear |
more links required to take
loads |
A |
| 5 |
The variale rate of spring
is used mainly to |
reduce natural frequency |
increase natural frequency |
to decrease mass |
increase load carrying
capacity |
B |
| 6 |
due to application of
lateral force acting on vehicle lateral load transfer is called as |
Roll steer |
pitch and squat |
body roll |
jounce |
C |
| 7 |
Main disavantage of leaf
spring is |
not strong |
hard |
wind up phenomenon |
vibrations |
C |
| 8 |
Four link suspension used
on |
cars |
trucks |
buses |
motorcycles |
A |
| 9 |
The suspension which gives
small deflections for small bumps is called as |
Hard suspension |
Soft suspension |
interconnected suspension |
passive suspension |
A |
| 10 |
The main advantage of
independent suspension is |
no camber change |
High Roll stiffness |
friction between springs |
low antidive characterstics |
B |
| 11 |
The longitudinal weight
transfer during acceleartion is reduced by |
Anti dive Geometry |
Anti pitch geometry |
steering geometry |
suspension geometry |
B |
| 12 |
The point, where control
arm forces are resolved, is called as |
centre of gravity |
Instantaneous centre |
virtual reaction point |
roll center |
C |
| 13 |
The condition for full
antipitch condition for solid drive rear axle is |
e/d = h/L |
e/d =2 h/L |
e/d = L/h |
d/e = L/h |
B |
| 14 |
To achieve 100 % anti squat
condition for solid axle suspension , an effective trailing arm length is
about |
2 times the elevation |
3 times the elevation |
5 times the elevation |
4 times the elevation |
C |
| 15 |
If pivot point locates
above locus points in antidive then |
front and rear will lift |
front and rear will under
jounce |
front under jounce and rear
will lift |
front will lift and rear will
under jounce |
D |
| 16 |
100 % full anti dive will
change |
castor angle |
camber angle |
King pin inclination |
toein |
A |
| 17 |
The actual anti dive
condition used in cars |
80% |
70% |
50% |
750% |
C |
| 18 |
position of pivot in anti
dive geometry is depend upon |
drive torque |
brake torque at front and rear |
position of CG |
none of the above |
B |
| 19 |
To reduce pitch and dive
during braking and accelerating, the types of suspension used is called as |
Equilizing suspension |
Passive suspension |
independent suspension |
solid suspension |
A |
| 20 |
The stiffness of springs
used for equilizing suspension is |
less for front and greater for
rear springs |
greater for front and less for
rear springs |
same for front and rear
springs |
different for front and rear
springs |
C |
| 21 |
The principle used in
interconnected suspension is |
main suspension springs made
harder than than interconnected suspension springs |
main suspension springs made
softer than than interconnected suspension springs |
both the springs made of same
stiffness |
main suspension springs made
softer than than interconnected suspension springs |
B |
| 22 |
In passive supensions |
spring and damper are absent |
spring and damper are present |
spring is absent |
damper is absent |
B |
| 23 |
In passive suspensions |
less control on reactions of
spring and damper |
no control on reactions of
spring |
no control on reactions of
spring and damper |
no control on reactions of
damper |
C |
| 24 |
In semiactive suspension |
a control system is used for
damper |
a control system is used for
spring |
a control system is used for
spring and damper |
only control system is used |
C |
| 25 |
In full active suspension |
spring and damper are absent |
spring and damper are present |
spring is absent and actuator
with damper is present |
damper is absent |
C |
| 26 |
In full active suspension |
all reactions are controlled |
no control on reactions of
spring |
no control on reactions of
spring and damper |
no control on reactions of
damper |
A |
| 27 |
The example of self
levelling suspension is |
hydrolastic suspension |
air suspension |
active suspension |
semi active suspension |
B |
| 28 |
The function of active
suspension is |
roll control and ride control |
roll control only |
ride control only |
dive control only |
A |
| 29 |
It is possible to eliminate
roll ntirely in |
passive suspension |
air suspension |
active suspension |
semi active suspension |
C |
| 30 |
The disadvantages os active
suspension are |
weight ,cost and complexity |
cost and no roll control |
weight and no ride control |
complexity and no height
control |
A |
| 31 |
The components of active
suspension are |
sensors and hydraulic
actuators |
hydraulic actuators only |
sensors with pneumatic
actuators |
sensors with electromagnetic
actuators |
A |
| 32 |
The point at which lateral
forces may be applied to sprung mass without roll, is called as |
pitch centre |
roll centre |
dive centre |
virtual reaction point |
B |
| 33 |
The line joining front and
rear roll centre is called as |
anti dive line |
anti pitch line |
roll axis |
anti squat line |
C |
| 34 |
The distance of roll centre from the ground is called
as |
roll centre height |
elevation |
pitch centre height |
dive centre height |
A |
| 35 |
High roll centre height
will reduce the |
vibrations of vehicle body |
wheel shimmy |
pitching |
rolling |
B |
| 36 |
In three link rear
suspension the slope of roll axis |
changes slightly |
changes too much |
remains unchanged |
has no effect |
C |
| 37 |
The independent suspensions
are having ________ forces with it. |
Lateral |
Jacking |
Braking |
pitching |
B |
| 38 |
when roll centre of
independent suspensions is above the ground then the geometry is called as |
swing geometry |
positive swing geometry |
negative swing geotry |
antipitch geometry |
B |
| 39 |
when roll centre of
independent suspensions is below the ground then the geometry is called as |
swing geometry |
positive swing geometry |
negative swing geotry |
antipitch geometry |
C |
| 40 |
The net effect of positive
swing geometry during turning is |
lowering of roll centre height |
increase in roll centre height |
no change in rollcentre height |
no change in roll centre |
A |
| 41 |
The effect of postive and
negative swing geometry is |
reduces bouncing |
increaes bouncing |
reduces pitching |
reduces diving |
A |
| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct option |
| A |
B |
C |
D |
| 4 |
1 |
Automobiles travel at high
speed, and as a consequnce experience a broad ______________________ |
Spectrum of Vibration |
Spectrum of Velocity |
Spectrum of Speed |
Spectrum of Motion |
A |
| 2 |
The term "Ride"
is commonly used in reference to |
tactile and visual vibrations |
tactile and visual motion |
tactile and visual flow |
tectile and visual speed |
A |
| 3 |
The range of the ride
frquency |
0-50Hz |
0-25 Hz |
0-100 Hz |
0-1000 Hz |
B |
| 4 |
The range of the Noise
frquency |
25-20000 Hz |
25-250000 Hz |
0-25 Hz |
0-100 Hz |
A |
| 5 |
Noise is usually present
when lower frequncy _____________ |
vibrations are excited |
Vibration is reduced |
Vibration is same |
Vibration is nill |
A |
| 6 |
Ride involves the study of
the main |
Ride excitation source |
Ride |
ride zone |
Ride Area |
A |
| 7 |
Road roughness is |
Excitation source |
Vehicle Dynamics |
implicit |
Explicit |
A |
| 8 |
The quarter-car model is
limited to study of dynamics behavior in the vertical direction only |
Horizantal direction only |
vertical direction only |
Upward direction only |
Down W\warddirection only |
A |
| 9 |
Effective static deflection
of the vehicle should exceed roughly |
4 inch |
3 inch |
6 inch |
5 inch |
C |
| 10 |
The roll frequncy should be
approximatly equal to the |
pitch and bouce frequencies |
Pitch and Roll |
Pitch nad Yaw |
Yaw and Roll |
A |
| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct option |
| A |
B |
C |
D |
| 5 |
1 |
What is the purpose of the
reciprocating ball type steering gear? |
To reduce the operating cost |
To reduce the number of parts |
To reduce the operating
friction |
To reduce the toe-out during
the turns |
C |
| 2 |
The component that connects
the steering rack to the knuckles is |
Tie rod |
Sector gear |
Pivot |
Spline |
A |
| 3 |
What is called the
cornering force over the slip angle? |
Castor trail |
Cornering power |
Self-righting torque |
Pneumatic trail |
B |
| 4 |
In a hydraulic power
steering system, the power steering pump is driven by a |
Belt driven by camshaft
|
Chain driven by crankshaft |
Belt driven by drive-shaft |
Belt driven by crankshaft |
D |
| 5 |
Incorrect steering axis inclination (S.A.I.)
causes |
Tendency to assume toe-out
orientation |
Generation of a braking effect
at tight corners |
Poor recovery of the steering
wheel after making a turn |
The vehicle to pull to the
side of lesser inclination |
C |
| 6 |
In vehicles with tilt steering, the steering
column is pivoted in |
Upper bracket |
Lower bracket |
Tilt bracket |
Steering yoke joint |
B |
| 7 |
What is the angle between
the steering axis and the vertical in the plane of the wheel? |
Castor |
Camber |
Steering axis inclination |
Steering axis inclination |
A |
| 8 |
If the front of the front
wheels is inside and rear of front wheels are apart when the vehicle is at
rest, then the configuration is called? |
Toe-in |
Toe out |
Positive camber |
Positive castor |
A |
| 9 |
What is the name of the angle through which
the wheel has to turn to sustain the side force? |
Slip angle |
Castor angle |
Camber |
Kingpin inclination |
A |
| 10 |
Wheel camber angles and
__________ normally have secondary effects on steering behaviour and
high speed directional response.
|
Toe-out |
Toe-in |
slip angle |
caster angle |
B |
| 11 |
Ackerman geometry is a
function of the vehicle |
wheel base |
wheelbase and front axle tread |
wheelbase and rear axle tread |
axle tread |
B |
| 12 |
Which is not a SAE tyre
force |
Lateral force |
Tractive force |
Frictional force |
Normal force |
C |
| 13 |
The reaction in the
steering system is described by the moment produced on |
steer axis |
steering gearbox |
tyre |
steering wheel |
A |
| 14 |
The order in which effort
applied to the steering wheel is transferred to the front wheel is |
Steering wheel, steering
gearbox, steering shaft, tie rod, steering knuckle, front wheels |
Steering wheel, steering
shaft, steering gearbox, tie rod, steering knuckle, front wheels |
Steering wheel, steering
shaft, steering gearbox, steering knuckle, tie rod, front wheels |
Steering wheel, tie rod,
steering gearbox, steering shaft, steering knuckle, front wheels |
B |
| 15 |
Which of the following
parameter can be adjusted by modifying the tie rod attachment length? |
Camber |
Caster |
Toe |
Steering gear ratio |
C |
| 16 |
In typical steering system the relay
linkages transfer the steering action from _______ on the body of vehicle to
steering arms on the wheels. |
axle |
engine |
gearbox |
differential |
C |
| 17 |
The steering action is
achived by ___________ displacement of the relay linkage in the presence of
arbitrary suspension motion. |
lateral |
longitudinal |
translational |
zero |
C |
| 18 |
What is the angle between the vertical when
the top of the wheel slants outward? |
Negative camber |
Negative castor |
Positive camber |
Positive castor |
C |
| 19 |
The steering wheel connects
the shafts, universal joints, and vibration isolators to the |
Axle |
Drive train |
Differential |
Gearbox |
D |
| 20 |
The ‘Ackerman mechanism’ is
related to: |
Air conditioning system |
Transmission system |
Steering system |
Lubrication system |
C |
| 21 |
The basic purpose of
providing caster angle on wheels is to |
Prevent uneven tyre wear |
Maintain directional control |
Bring the road contact of the
tyre under the point of load |
Compensate for wear in the
steering linkage |
B |
| 22 |
The component that is responsible for
converting the rotation of the steering wheel into lateral motion is the |
Steering wheel |
Steering shaft |
Steering gearbox |
Tie rod |
C |
| 23 |
The angle formed by the
line joining the stubbed axle steering arm ball joints with the vertical,
when the line slants forward at the top is called |
Positive camber |
Negative camber |
Positive castor |
Negative castor |
D |
| 24 |
The turning circle of a car
is approximately |
1m |
2m |
10m |
30m |
C |
| 25 |
Another name for steering
link rod is |
Track rod |
Tie rod |
Drag link |
Pitman |
C |
| 26 |
Most popular manual
steering gear for cars today is |
Rack and pinion type |
worm and wheel type |
Cam and roller type |
Worm and nut type |
A |
| 27 |
One purpose of a
reciprocating ball type steering gear is to reduce the |
Operating friction |
Operating cost |
No. of parts |
Toe-out during turns |
A |
| 28 |
In the recirculating ball
type steering gear the balls travel between the ball nut and the |
Gear rack |
Worm wheel |
Steering wheel shaft |
Worm shaft |
D |
| 29 |
The included angle is the
sum of |
Camber and caster |
Caster and S.A.I |
Camber and S.A.I |
Camber and toe-in |
C |
| 30 |
What is a condition called
when the vehicle will try to move away from its normal direction and to keep
it on the right path there is need to steer a little? |
Understeer |
Oversteer |
Reversibility |
Irreversibility |
A |
| Module No |
Q NO |
QUESTION |
OPTIONS |
Correct Answer |
| A |
B |
C |
D |
| 6 |
1 |
Lowering the air pressure
in a tyre creates a large area of contact between the tyre and the ground and
makes driving on---------much easier. |
Softer ground |
plane ground |
wet ground |
off road |
A |
| 2 |
Lowering pressure in tyre
dose-----damage to surface |
large |
less |
equal |
no damage |
B |
| 3 |
Using CTIS in tyre the life
of truck, tyre and drive train life------ |
increase |
decrease |
remains constant |
finishes |
A |
| 4 |
Where was first CTIS used |
TATA trucks |
American DUKW trucks |
ford trucks |
jeep trucks |
B |
| 5 |
Function of CTIS in case of
puncture or a leak |
maintain pressure |
release pressure |
increase pressure |
decrease pressure |
A |
| 6 |
What is the main brain of
system |
ECU |
Pneumatic control system |
valves |
operator control panel |
A |
| 7 |
The locations of the motion
centers in bounce and pitch are dependent on the relative value of
----frequencies of the front and rear suspension |
Dominating |
Natural |
Relative |
Grouped |
B |
| 8 |
The front suspension should
have a ---- lower rider rate that the rear suspnsion |
0.32 |
0.4 |
0.28 |
0.3 |
D |
| 9 |
In passive isolators the
spring or spring damper has a typical natural frequency of------ |
5-10 Hz |
3-7 Hz |
7-15 Hz |
3-9 Hz |
D |
| 10 |
In passive isolators the
molded or bounded elastomer mounts has a typical natural frequency of----- |
0.17-2.5 Hz |
0.15-2.5 Hz |
0.10-2.0 Hz |
1.0-1.5 Hz |
A |
| 11 |
CTIS offers improved
vehicle--- |
Speed |
Life |
Mobility |
Strength |
C |
| 12 |
Mass Air Flow (MAF) sensor
is vehicle is use to calculate |
Density of fuel |
Speed |
Efficiancy of Fuel |
Density of Air |
D |
| 13 |
Following is one of type of
Mass Air Flow sensor |
Bernoulli's Meter |
Vane Meter |
Delta sensor |
Cool air sensor |
B |
| 14 |
The main purpose of engine
speed sensor is to |
Monitor cranckshafts rotating
speed |
Monitor Air-Fuel ratio inside
engine |
Monitor density of air |
monitor camshaft rotating
speed |
A |
| 15 |
Oxygen sensor is also known
as |
Alpha sensor |
Lambda Sensor |
Gyamma Sensor |
Beta Sensor |
B |
| 16 |
Oxygen sensor is located |
Before Intake manifold |
Before Catalytic converter |
Near Exhaust manifold |
Inside combustion chamber |
C |
| 17 |
MAP stands for |
Manifold Alternative pressure
Sensor |
Main Absolute Pump Sensor |
Manipulated Absolute Pressure
Sensor |
Manifold Absolute Pressure
Sensor |
D |
| 18 |
When there is significant
fall while speeding up, is the sign of following faulty sensor |
Voltage Sensor |
Throttle Position Sensor |
Fuel Temperature Sensor |
Oxygen Sensor |
B |
| 19 |
Vehicle speed sensor is
fitted within |
Vehicle crankshaft |
Combustion chamber |
Antilock Braking System |
Exhaust Manifold |
C |
| 20 |
Following Sensor is Used as
Parking Assistant |
Coolent sensor |
Pressure sensor |
Oxygen Sensor |
Ultrasonic sensor |
D |
| 21 |
In Automotive Rain sensor,
Infrared light continously hits the windscreen at |
90 Degree |
45 Degree |
30 Degree |
10 Degree |
B |
| 22 |
This sensor will
retardengine timing if its senses detonation |
Knock Sensor |
ECT |
MAF |
None of above |
A |
| 23 |
PCM stands for |
Powertrain Control Module |
Paze Candy Machine |
Positive Crankshaft Movement |
None of above |
A |
| 24 |
This sensor interprets Gas
pedal movementby thedriver an allows for precise throttle control |
CMP |
ETC |
TPS |
CKP |
B |
| 25 |
This sensor uses voltage
signals to inform the ECM about stoichiometric ratio |
TPS |
MAP |
Air/Fuel ration sensor |
ETC |
C |
| 26 |
This sensor has its own
internal heater |
A/F sensor |
HO2S |
TPS |
MAP |
B |
| 27 |
This sensor calculates
Engine load by reading engine vaccum |
ECT |
MAP |
CMP |
CKP |
B |
| 28 |
This sensor is usually
located on the transmission and provides information about vehicle speed |
VSS |
CMP |
MAP |
ETC |
A |
| 29 |
In a control system an
error detector |
Detects the error and signal
out an alarm |
Detects error of system |
Produces an error signal as
the actual diff. of value and desired value of O/P. |
None of above |
C |
| 30 |
Bimetallic thermostat is
----- controller. |
On-Off |
Zero term |
One-term |
Two-term |
A |
| 31 |
A controller, essentially
is a |
Sensor |
Clipper |
Amplifier |
Comparator |
D |
| 32 |
In a control system output
of controller is given to |
Final control element |
Amplifier |
Comparator |
Sensor |
A |
| 33 |
In an Automatic control
system which of following element is not used? |
Error detector |
Final control element |
sensor |
oscillator |
D |
| 34 |
In a stable control system
backlash can cause which of following |
Underdamping |
Overdamping |
Poor Stability at reduced
values of open loop game |
Low-Level oscillation |
D |
| 35 |
The temperature indicating
instrument in vehicles indicates the temperature of |
Engine Piston |
Jacket cooling water |
Engine cylinder |
Lubricating oil |
B |
| 36 |
The front stabilizer bar is
used to |
Increase vehicle load carrying
capacity |
Provide softer ride |
Control suspesion movement and
body roll |
None of above |
C |
| 37 |
The braking control type
traction control system (TCS) generally operates in speed range of |
Less than 20 KMPH |
Less than 40 KMPH |
Less than 60 KMPH |
More than 60 KMPH |
B |
| 38 |
The brake warning light
warns the driver of |
Water in the master cylinder |
Air in hydraulic system |
Failure of primery and
secondary circuit of hydraulic system |
Powerbrake failure |
C |
| 39 |
The vehicle ride will be
comfortable, if |
Unsprung mass is kept minimum |
sprang mass is kept minimum |
Vehicle mass is kept minimum |
None of above |
A |
| 40 |
The brake pedal during ABS
operation |
Is pushed upward forcefully |
Pedal stroke becomes longer |
Transmits slight kick back to
driver's foot |
None of above |
C |
| 41 |
A traction control system
in Automobile controls the |
Vibration on steering wheel |
Engine power during
acceleration |
Torque that is transmitted by
the tyres to the road surface |
Stopping distance in case of
emergancy |
C |
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