2023 DODGE CHALLENGER engine oil

STARTING AND OPERATING105
(Continued)
DRIVING THROUGH WATER
Driving through water more than a few inches/
centimeters deep will require extra caution to ensure
safety and prevent damage to your vehicle.
Flowing/Rising Water
Shallow Standing Water
Although your vehicle is capable of driving through shallow
standing water, consider the following Warnings and
Cautions before doing so.
WARNING!
Do not drive on or across a road or path where water is
flowing and/or rising (as in storm run-off). Flowing water
can wear away the road or path's surface and cause
your vehicle to sink into deeper water. Furthermore,
flowing and/or rising water can carry your vehicle away
swiftly. Failure to follow this warning may result in
injuries that are serious or fatal to you, your
passengers, and others around you.
WARNING!
Driving through standing water limits your vehicle’s
traction capabilities. Do not exceed 5 mph (8 km/h)
when driving through standing water.
 Driving through standing water limits your vehicle’s
braking capabilities, which increases stopping
distances. Therefore, after driving through standing
water, drive slowly and lightly press on the brake
pedal several times to dry the brakes.
 Failure to follow these warnings may result in injuries
that are serious or fatal to you, your passengers, and
others around you.
CAUTION!
Always check the depth of the standing water before
driving through it. Never drive through standing
water that is deeper than the bottom of the tire rims
mounted on the vehicle.
 Determine the condition of the road or the path that
is under water and if there are any obstacles in the
way before driving through the standing water.
 Do not exceed 5 mph (8 km/h) when driving through
standing water. This will minimize wave effects.
Driving through standing water may cause damage
to your vehicle’s drivetrain components. Always
inspect your vehicle’s fluids (i.e., engine oil, transmis -
sion, axle, etc.) for signs of contamination (i.e., fluid
that is milky or foamy in appearance) after driving
through standing water. Do not continue to operate
the vehicle if any fluid appears contaminated, as this
may result in further damage. Such damage is not
covered by the New Vehicle Limited Warranty.
 Getting water inside your vehicle’s engine can cause
it to lock up and stall out, and cause serious internal
damage to the engine. Such damage is not covered
by the New Vehicle Limited Warranty.
CAUTION!
4

23_LA_OM_EN_USC_t.book Page 105

MULTIMEDIA149
3. After selecting a widget location, select the gauge to
display:
 Gauge: Oil Temp
 Gauge: Oil Pressure
 Gauge: Coolant Temp
 Gauge: Battery Voltage
 Gauge: Trans Temp — If Equipped with an Auto -
matic Transmission
 Gauge: Boost Pressure — If Equipped
 Gauge: Air/Fuel Ratio — If Equipped
 Gauge: I/C Coolant Temp — If Equipped
 Gauge: Intake Air Temp
 Gauge: Engine Torque
 Gauge: Engine Power
 Gauge: G-Force
 Gauge: Steering Angle
 Gauge: Current Gear
 Gauge: Current Speed
 Timer: 0–60 mph (0–100 km/h)
 Timer: 0–100 mph (0–160 km/h)
 Timer: 60 ft (20 m) 
Timer: 330 ft (100 m)
 Timer: 1/8 Mile (200 m)
 Timer: 1000 ft (300 m)
 Timer: 1/4 Mile (400 m)
 Timer: Braking Distance
 Timer: Reaction Time
Historical Data
The Historical Data feature allows you to view information
about your vehicle such as the VIN, miles on the odometer,
longitude and latitude coordinates, and more.
To activate the Historical Data feature on your
touchscreen, follow these steps:

1. Select the Home page tab within Performance Pages. Then, press the settings icon (gear icon) in
the upper right hand corner of the touchscreen.

Home Page Settings

2. Towards the bottom of the screen, a checkbox will appear next to “Include historical data in
screenshot.” Click the box to signify that this feature
will be on.

Historical Data

NOTE:Once the checkbox is selected, the bottom bar of the
screen will be replaced with the historical data from your
vehicle present at the time the screenshot icon was
pressed.
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MULTIMEDIA153
Right G-Force:
Measures the peak force on the right side of the
vehicle.
 Left G-Force:
Measures the peak force on the left side of the vehicle.
 Rear G-Force:
Measures the peak acceleration force on the rear of
the vehicle.
NOTE:Front, Right, Left, and Rear G-Forces are all peak values.
These readings can be reset by clearing peak G-Force on
the instrument cluster.
 Steering Wheel Angle
Steering Wheel Angle utilizes the steering angle sensor
to measure the degree of the steering wheel relative to
zero (straight ahead) reference angle. The zero degree
reference angle measurement indicates a steering
wheel straight ahead position.
The friction circle display shows instantaneous G-Force as
a highlight and previous G-Force as dots within the circle.
The system records previous G-Force for three minutes. If
there are multiple samples at a given point, the color of
the dot will darken from blue to red. Vectors more frequent
will show in red; infrequent vectors will show in blue.
ENGINE

Performance Pages — Engine

When selected, this screen displays the following values:
 Vehicle Speed
Shows the actual vehicle speed.
 Engine Power
Shows the instantaneous power.
 Engine Torque
Shows the instantaneous torque.
 Oil Pressure (6.4L Only) — If Equipped
Shows the actual engine oil pressure.
 Boost Pressure (6.2L Only) — If Equipped
Shows the actual boost pressure.
 Gear (Automatic Transmission Only)
Shows the current (or pending) operating gear of the
vehicle.
DYNAMOMETER (DYNO)

Performance Pages — Dyno

The system will start drawing graphs for Power and Torque
(top chart) and Engine Speed (bottom chart). The graph
will fill to the right side of the page (based on History time
selected). Once the right side of the page is reached, the
graph will scroll with the right side always being the most
recent recorded sample.
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198SAFETY
PERIODIC SAFETY CHECKS YOU SHOULD
M
AKE OUTSIDE THE VEHICLE
Tires
Examine tires for excessive tread wear and uneven wear
patterns. Check for stones, nails, glass, or other objects
lodged in the tread or sidewall. Inspect the tread for cuts
and cracks. Inspect sidewalls for cuts, cracks, and bulges.
Check the lug nuts/bolt torque for tightness. Check the
tires (including spare) for proper cold inflation pressure.
Lights
Have someone observe the operation of brake lights and
exterior lights while you work the controls. Check turn
signal and high beam indicator lights on the instrument
panel.
Door Latches
Check for proper closing, latching, and locking.
Fluid Leaks
Check area under the vehicle after overnight parking for
fuel, coolant, oil, or other fluid leaks. Also, if gasoline
fumes are detected or if fuel or brake fluid leaks are
suspected, the cause should be located and corrected
immediately.
EXHAUST GAS
The best protection against carbon monoxide entry into
the vehicle body is a properly maintained engine exhaust
system. Whenever a change is noticed in the sound of the exhaust
system, when exhaust fumes can be detected inside the
vehicle, or when the underside or rear of the vehicle is
damaged, have an authorized dealer inspect the complete
exhaust system and adjacent body areas for broken,
damaged, deteriorated, or mispositioned parts. Open
seams or loose connections could permit exhaust fumes
to seep into the passenger compartment. In addition,
inspect the exhaust system each time the vehicle is raised
for lubrication or oil change. Replace as required.
CARBON MONOXIDE WARNINGS
WARNING!
Exhaust gases can injure or kill. They contain carbon
monoxide (CO), which is colorless and odorless.
Breathing it can make you unconscious and can
eventually poison you. To avoid breathing (CO), follow
these safety tips:

Do not run the engine in a closed garage or in
confined areas any longer than needed to move your
vehicle in or out of the area.
 If you are required to drive with the trunk/liftgate/
rear doors open, make sure that all windows are
closed and the climate control BLOWER switch is set
at high speed. DO NOT use the recirculation mode.
 If it is necessary to sit in a parked vehicle with the
engine running, adjust your heating or cooling
controls to force outside air into the vehicle. Set the
blower at high speed.
WARNING!
Carbon monoxide (CO) in exhaust gases is deadly.
Follow the precautions below to prevent carbon
monoxide poisoning:
Do not inhale exhaust gases. They contain carbon
monoxide, a colorless and odorless gas, which can
kill. Never run the engine in a closed area, such as a
garage, and never sit in a parked vehicle with the
engine running for an extended period. If the vehicle
is stopped in an open area with the engine running
for more than a short period, adjust the ventilation
system to force fresh, outside air into the vehicle.
 Guard against carbon monoxide with proper mainte -
nance. Have the exhaust system inspected every
time the vehicle is raised. Have any abnormal condi -
tions repaired promptly. Until repaired, drive with all
side windows fully open.

23_LA_OM_EN_USC_t.book Page 198

208IN CASE OF EMERGENCY
Sealing A Tire With Tire Service Kit
Whenever You Stop To Use Tire Service Kit:

1. Pull over to a safe location and turn on the vehicle’s
Hazard Warning Flashers.

2. Verify that the valve stem (on the wheel with the deflated tire) is in a position that is near to the
ground. This will allow the Tire Service Kit Hose to
reach the valve stem and keep the Tire Service Kit flat
on the ground. This will provide the best positioning of
the kit when injecting the sealant into the deflated
tire and running the air pump. Move the vehicle as
necessary to place the valve stem in this position
before proceeding.
3. Place the gear selector in PARK, then push and release the ENGINE START/STOP button to set the
ignition switch to the OFF position.
4. Apply the parking brake.
Setting Up To Use Tire Service Kit:

1. Uncoil the Sealant Hose and then remove the cap from the fitting at the end of the hose.

2. Place the Tire Service Kit flat on the ground next to the deflated tire. 3. Remove the cap from the valve stem and
then screw the fitting at the end of the Sealant
Hose onto the valve stem.
4. Uncoil the Power Plug and insert the plug
into the vehicle’s 12 Volt power outlet.
NOTE:Do not remove foreign objects (e.g., screws or nails) from
the tire.
Injecting Tire Service Kit Sealant Into The Deflated Tire:
5. Always start the vehicle before turning the
Tire Service Kit on.
6. Ensure the Mode Select Knob is to the
Sealant Mode position.
7. After pushing the Power Button, the sealant
(white fluid) will flow from the Sealant Bottle
through the Sealant Hose and into the tire.
NOTE:Sealant may leak out through the puncture in the tire. If the sealant (white fluid) does not flow within
0 – 10 seconds through the Sealant Hose:

1. Push the Power Button to turn the Tire Service Kit
off. Disconnect the Sealant Hose from the valve
stem. Make sure the valve stem is free of debris.
Reconnect the Sealant Hose to the valve stem.
Check that the Mode Select Knob is in the Sealant
Mode position and not Air Mode. Push the Power
Button to turn the Tire Service Kit on.

2. Connect the Power Plug to a different 12 Volt power outlet in your vehicle or another vehicle, if available.
Make sure the vehicle is running before turning the
Tire Service Kit on.
3. The Sealant Bottle may be empty due to previous use. Call for assistance.
If the sealant (white fluid) does flow through the Sealant
Hose: 4. Continue to operate the pump until sealant
is no longer flowing through hose (typically
takes 30 - 70 seconds). As the sealant flows
through the Sealant Hose, the Pressure Gauge
can read as high as 70 psi (4.8 bar). The Pressure Gauge
will decrease quickly from approximately 70 psi (4.8 bar)
to the actual tire pressure when the Sealant Bottle is
empty.
5. The pump will start to inject air into the tire
immediately after the Sealant Bottle is empty.
Continue to operate the pump and inflate the
tire to the cold tire inflation pressure found on
the tire and loading information label located in the
driver-side door opening. Check the tire pressure by
looking at the Pressure Gauge.

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214IN CASE OF EMERGENCY
(B) SETTING UP TO USE TIRE SERVICE KIT:

1. Push in the Mode Select Knob (6) and turn to the
Sealant Mode position.

2. Uncoil the Sealant Hose (4) and then remove the cap from the fitting at the end of the hose.
3. Place the Tire Service Kit flat on the ground next to the deflated tire.
4. Remove the cap from the valve stem and then screw the fitting at the end of the Sealant Hose (4) onto the
valve stem.
5. Uncoil the Power Plug (7) and insert the plug into the vehicle’s 12 Volt power outlet.
NOTE:Do not remove foreign objects (e.g., screws or nails) from
the tire.
(C) INJECTING TIRE SERVICE KIT SEALANT
INTO THE DEFLATED TIRE:
Always start the engine before turning ON the Tire
Service Kit.
NOTE:Manual transmission vehicles must have the parking
brake engaged and the gear selector in NEUTRAL. 
After pushing the Power Button (3), the sealant (white
fluid) will flow from the Sealant Bottle (1) through the
Sealant Hose (4) and into the tire.
NOTE:Sealant may leak out through the puncture in the tire.
If the sealant (white fluid) does not flow within 0 – 10
seconds through the Sealant Hose :

1. Push the Power Button (3) to turn Off the Tire
Service Kit. Disconnect the Sealant Hose (4) from
the valve stem. Make sure the valve stem is free of
debris. Reconnect the Sealant Hose (4) to the valve
stem. Check that the Mode Select Knob (6) is in the
Sealant Mode position and not Air Mode. Push the
Power Button (3) to turn On the Tire Service Kit.

2. Connect the Power Plug (7) to a different 12 Volt power outlet in your vehicle or another vehicle, if
available. Make sure the engine is running before
turning ON the Tire Service Kit.
3. The Sealant Bottle (1) may be empty due to previous use. Call for assistance.
NOTE:If the Mode Select Knob (6) is on Air Mode and the pump
is operating, air will dispense from the Air Pump Hose (8)
only, not the Sealant Hose (4). If the sealant (white fluid) does flow through the Sealant
Hose :

1. Continue to operate the pump until sealant is no
longer flowing through the hose (typically takes
30 - 70 seconds). As the sealant flows through the
Sealant Hose (4), the Pressure Gauge (5) can read
as high as 70 psi (4.8 Bar). The Pressure Gauge (5)
will decrease quickly from approximately 70 psi
(4.8 Bar) to the actual tire pressure when the
Sealant Bottle (1) is empty.

2. The pump will start to inject air into the tire immediately after the Sealant Bottle (1) is empty.
Continue to operate the pump and inflate the tire to
the pressure indicated on the tire pressure label on
the driver-side latch pillar (recommended pressure).
Check the tire pressure by looking at the Pressure
Gauge (5).
If the tire does not inflate to at least 26 psi (1.8 Bar)
pressure within 15 minutes:
 The tire is too badly damaged. Do not attempt to drive
the vehicle further. Call for assistance.NOTE:If the tire becomes overinflated, push the Deflation Button
(2) to reduce the tire pressure to the recommended
inflation pressure before continuing.

23_LA_OM_EN_USC_t.book Page 214

216IN CASE OF EMERGENCY
(F) SEALANT BOTTLE AND HOSE REPLACE -
MENT:

1. Uncoil the Sealant Hose (4) (clear in color).

2. Locate the round Sealant Bottle release button in the recessed area under the sealant bottle.
3. Push the Sealant Bottle release button. The Sealant Bottle (1) will pop up. Remove the bottle and dispose
of it accordingly.
4. Clean any remaining sealant from the Tire Service Kit housing.
5. Position the new Sealant Bottle (1) in the housing so that the Sealant Hose (4) aligns with the hose slot in
the front of the housing. Push the bottle into the
housing. An audible click will be heard indicating the
bottle is locked into place.
6. Verify that the cap is installed on the fitting at the end of the Sealant Hose (4) and return the hose to its
storage area (located on the bottom of the air pump).
7. Return the Tire Service Kit to its storage location in the vehicle.
JUMP STARTING
If your vehicle has a discharged battery, it can be jump
started using a set of jumper cables and a battery in
another vehicle, or by using a portable battery booster
pack. Jump starting can be dangerous if done improperly,
so please follow the procedures in this section carefully.
NOTE:When using a portable battery booster pack, follow the
manufacturer's operating instructions and precautions.
PREPARATIONS FOR JUMP START
The battery is stored under an access cover in the trunk.
Remote battery posts are located on the right side of the
engine compartment for jump starting.

Remote Jump Starting Post Locations

NOTE:The remote battery posts are viewed by standing on the
right side of the vehicle looking over the fender. The
positive battery post may be covered with a protective cap.
Lift up on the cap to gain access to the positive battery
post. Do not jump off fuses. Only jump directly off the
remote positive post which has a positive (+) symbol on or
around the post.
WARNING!
Do not attempt jump starting if the battery is frozen. It
could rupture or explode and cause personal injury.
CAUTION!
Do not use a portable battery booster pack or any other
booster source with a system voltage greater than
12 Volts or damage to the battery, starter motor,
alternator or electrical system may occur.
Remote Positive (+) Post
Remote Negative (-) Post

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223
SERVICING AND MAINTENANCE
SCHEDULED SERVICING
3.6L AND 5.7L ENGINES
These engines are equipped with an automatic oil change
indicator system. The oil change indicator system will
remind you that it is time to take your vehicle in for
scheduled maintenance.Based on engine operation conditions, the oil change
indicator message will illuminate. This means that service
is required for the vehicle. Operating conditions such as
frequent short-trips, trailer tow, and extremely hot or cold
ambient temperatures will influence when the “Change
Oil” or “Oil Change Required” message is displayed. Have
your vehicle serviced as soon as possible, within the next
500 miles (805 km).
The “Oil Change Required” message will be displayed in
the instrument cluster and a single chime will sound,
indicating that an oil change is necessary.
An authorized dealer will reset the oil change indicator
message after completing the scheduled oil change.
NOTE:Under no circumstances should oil change intervals
exceed 10,000 miles (16,000 km), 12 months or
350 hours of engine run time, whichever comes first.
The 350 hours of engine run or idle time is generally only
a concern for fleet customers.Once A Month Or Before A Long Trip:

Check engine oil level.
 Check windshield washer fluid level.
 Check tire pressure and look for unusual wear or
damage. Rotate tires at the first sign of irregular wear,
even if it occurs before your next scheduled service.
 Check the fluid levels of the coolant reservoir, brake
master cylinder, and power steering (if equipped) and
fill as needed.
 Check function of all interior and exterior lights.
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