What should you do if your visibility is reduced while driving?
What should you do if your visibility is reduced while driving?
What should you do when your visibility is reduced?
- Prepare your car for night driving.
- Have your headlights properly aimed.
- Don’t drink and drive.
- Avoid smoking when you drive.
- If there is any doubt, turn your headlights on.
- Reduce your speed and increase your following distances.
- Don’t overdrive your headlights.
What should a driver do if their line of sight is restricted or blocked?
This line can be blocked by a curve, the crest of a hill, a wooded area, a large truck, etc. If you cannot see around an obstruction, you must slow down and be ready to alter your position until you can reestablish a clear line of sight to your path of travel and targeting area.
Which is the proper procedure when driving through curves?
As you approach a curve, move to the side of your lane opposite of the direction of the curve. For example, if the road curves to the left, move to the right side of your lane. As you continue through the curve, position your vehicle towards the other side of your lane.
What are two ways a driver can improve their line of sight?
What steps do you need to take to compensate for reduced visibility while driving at night?
- Keep windows clean to reduce glare and distractions.
- Clean headlights often.
- Adjust outside mirrors so your view is just outside the body of your vehicle.
- Keep interior vehicle lights low.
What should be your first response to reduced visibility?
Reducing your speed should be your first response to decreased visibility and dangerous road conditions.
How and when would you look into a curve?
When the car is “on target” the target will appear aligned with the top of the steering wheel. As the car gets closer to the curve, and it is time to select a new target, look through the curve with central vision until you see another straight-away for a new target.
How do you negotiate a curve when driving?
Keep slightly to the right of the lane center on right curves and in the middle of your lane on left curves. The sharper the curve, the more you need to reduce your speed. Look for traffic coming from the opposite direction. A speeder could easily stray into your lane.
Which is the proper procedure when driving through curves quizlet?
Which is the proper procedure when driving through curves? Approach the curve in the right portion, then accelerate out of the apex. A “weave lane” on an expressway is very dangerous because: it is both an entrance and exit lane.
How can you increase your line of sight?
When preparing to pass another vehicle on its left, you should ride in the left portion of your lane. This will increase your line of sight and make you more visible to oncoming traffic.
What are five steps a driver can take to compensate for reduced nighttime visibility?
What are five steps a driver can take to compensate for reduced nighttime visibility?
- Adjust your speed to the reach of your headlights.
- Keep your eyes moving.
- Look at the sides of objects.
- Protect your eyes from glare.
- Avoid being blinded by oncoming high beams.
What should you do to compensate for reduced line of sight?
When driving on curves what should you do to compensate for reduced line of sight? Look through to the end of curves to extend your view of the path of travel as much as possible. Nice work! You just studied 50 terms!
What’s the minimum sight distance for a car?
, stopping sight and passing sight distances provided are 789.5 feet and 950 feet, respectively. Since both are influenced by the adjacent sag curve, graphical analysis shows that actual minimum sight distances provided are 825 feet and 1080
How to calculate stopping sight distance for SSD?
Solution: 1. Since the grades are 3 percent and greater, determine stopping sight distance adjusted for downgrades. The 5-percent grade is the maximum of the downgrade, and will be used for s calculating SSD Using Chapter 2, Equation 2.8-3: − + G a V SSD = Vt 32.
What makes up the distance to stop a car?
Three factors determine the distance that it takes to stop your vehicle: perception time, reaction distance and braking distance. Perception time: The time it takes you to recognize a hazard. Reaction distance: The distance your vehicle travels between the time you recognize a problem and the time you apply the brakes.