Stopping Distances (Edexcel GCSE Combined Science: Physics): Flashcards

Exam code: 1SC0

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  • Define stopping distance.

Cards in this collection (20)

  • Define stopping distance.

    Stopping distance is the total distance travelled during the time it takes for a car to stop in response to an emergency.

  • What is the equation linking stopping distance, thinking distance and braking distance?

    Stopping distance = Thinking distance + Braking distance.

  • For a given braking force, the greater the ______ of a vehicle, the greater its stopping distance.

    For a given braking force, the greater the speed of a vehicle, the greater its stopping distance.

  • Why do heavy vehicles need a larger force to produce the same deceleration as lighter vehicles?

    By Newton's second law, F = ma, so for the same acceleration a greater mass requires a greater force.

  • Explain why overheating brakes can be dangerous.

    A vehicle's kinetic energy is converted to thermal energy in the brakes. If the brakes get too hot, they can fail and become less effective at stopping the car.

  • True or False?

    A large deceleration can only damage the vehicle, not injure the passengers.

    False.

    A large deceleration can cause injuries such as whiplash, and can also make the vehicle harder to control.

  • In which direction does the resultant force act on a car and its passengers as they decelerate to a stop?

    The resultant force acts in the opposite direction to the direction of motion, which is why deceleration is often given a negative value.

  • Define reaction time.

    Reaction time is a measure of how much time passes between seeing something and reacting to it.

  • What is the typical reaction time range for an alert person?

    0.2 to 0.9 seconds.

  • Describe the ruler-drop method for measuring reaction time.

    Person A holds a 30 cm ruler vertically above Person B's open hand and releases it unexpectedly. Person B catches it as soon as they see it move, and the ruler is marked at the point it was caught to measure the distance fallen.

  • In the ruler-drop method, the ______ the distance the ruler falls, the longer the reaction time.

    In the ruler-drop method, the greater the distance the ruler falls, the longer the reaction time.

  • True or False?

    The ruler-drop method directly measures a person's reaction time in seconds.

    False.

    The method measures the distance the ruler falls. This can be used to calculate a time, but a time is not measured directly.

  • Give an example of a situation in which a person needs to be alert and ready to react quickly.

    An athlete waiting for the start of a race.

  • Define braking distance.

    Braking distance is the distance travelled by a car under the braking force, i.e. while it is slowing down.

  • Define thinking distance.

    Thinking distance is the distance travelled by a car from when a driver realises they need to brake to when they apply the brakes.

  • State three factors, other than speed, that can increase a car's braking distance.

    Worn tyres or poor brakes (vehicle condition), wet or icy roads (road condition), and greater vehicle mass.

  • How does braking distance change if a car's velocity doubles?

    It increases by a factor of four, since braking distance is proportional to velocity squared.

  • Reaction distance = speed of the car × driver's ______.

    Reaction distance = speed of the car × driver's reaction time.

  • Name three factors that can increase a driver's thinking distance.

    Tiredness, distractions (e.g. using a mobile phone), and intoxication (alcohol or drugs).

  • True or False?

    Thinking distance is directly proportional to a car's speed.

    True.

    A graph of thinking distance against speed is a straight line through the origin, showing direct proportionality.

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