P2.1 - Everything in the Specification

Descrição

A quick quiz on everything outlined in the AQA specification for P3.1.
Harry Woodhall
Quiz por Harry Woodhall, atualizado more than 1 year ago
Harry Woodhall
Criado por Harry Woodhall mais de 7 anos atrás
14
1

Resumo de Recurso

Questão 1

Questão
Label the distance-time graph with the correct descriptions of movement.
Responda
  • Steady speed
  • Stopped
  • Acceleration
  • Deceleration
  • Steady speed

Questão 2

Questão
Label the velocity-time graph with the correct descriptions of movement.
Responda
  • Acceleration
  • Steady speed
  • Increasing acceleration
  • Increasing deceleration
  • Deceleration

Questão 3

Questão
How is speed calculated from a distance-time graph? By using the [blank_start]gradient[blank_end]. How is acceleration calculated from a velocity-time graph? By using the [blank_start]gradient[blank_end]. How is velocity calculated from a velocity-time graph? By [blank_start]reading[blank_end] the value off of the [blank_start]y-axis[blank_end]. How is distance calculated from a velocity-time graph? By using the [blank_start]area[blank_end] under the [blank_start]graph[blank_end].
Responda
  • gradient
  • gradient
  • reading
  • y-axis
  • area
  • graph

Questão 4

Questão
Speed is a scalar, velocity is a vector.
Responda
  • True
  • False

Questão 5

Questão
[blank_start]RESULTANT[blank_end] [blank_start]FORCE[blank_end] - The overall [blank_start]force[blank_end] acting on an [blank_start]object[blank_end].
Responda
  • RESULTANT
  • FORCE
  • force
  • object

Questão 6

Questão
If the [blank_start]resultant force[blank_end] acting on a [blank_start]stationary[blank_end] object is: - [blank_start]zero[blank_end], the object will remain [blank_start]stationary[blank_end] - non-zero, the object will [blank_start]accelerate[blank_end] in the [blank_start]direction[blank_end] of the [blank_start]resultant force[blank_end] If the resultant force acting on a moving object is: - [blank_start]zero[blank_end], the object will continue to move at a [blank_start]constant[blank_end] [blank_start]velocity[blank_end] - [blank_start]non-zero[blank_end], the object will [blank_start]accelerate[blank_end] in the [blank_start]direction[blank_end] of the [blank_start]resultant force[blank_end]
Responda
  • resultant force
  • stationary
  • zero
  • stationary
  • accelerate
  • direction
  • resultant force
  • resultant force
  • direction
  • accelerate
  • zero
  • non-zero
  • constant
  • velocity

Questão 7

Questão
What happens (in terms of forces) when two objects interact?
Responda
  • They exert equal and opposite forces on each other.
  • They exert equal and opposite forces on themselves.
  • The bigger object exerts a greater force on the smaller object.
  • They exert equal forces on each other.
  • They exert forces in the opposite direction on each other.

Questão 8

Questão
What are the four factors that affect thinking distance?
Responda
  • Tiredness, drugs, alcohol, speed of car
  • Tiredness, drugs, brake quality, speed of car
  • Alcohol, drugs, speed of car, grip
  • Friction, tiredness, alcohol, drugs
  • Speed of car, alcohol, tyre quality, tiredness
  • Grip, tiredness, alcohol, brake quality
  • Tiredness, grip, brake quality, drugs

Questão 9

Questão
What are the four factors that affect braking distance?
Responda
  • Speed of car, grip, tyre quality, brake quality
  • Speed of car, tyre quality, brake quality, tiredness
  • Tyre quality, grip, alcohol, drugs
  • Grip, tiredness, speed of car, brake quality
  • Grip, speed of car, tyre quality, alcohol
  • Brake quality, tyre quality, drugs, tiredness
  • Tiredness, drugs, speed of car, grip

Questão 10

Questão
[blank_start]STOPPING[blank_end] DISTANCE - The [blank_start]distance[blank_end] covered in the [blank_start]time[blank_end] between the driver first spotting a [blank_start]hazard[blank_end] and the vehicle coming to a complete [blank_start]stop[blank_end]. It is the [blank_start]sum[blank_end] of the [blank_start]thinking[blank_end] distance and the braking distance.
Responda
  • STOPPING
  • hazard
  • distance
  • time
  • stop
  • sum
  • thinking

Questão 11

Questão
[blank_start]THINKING[blank_end] DISTANCE - The [blank_start]distance[blank_end] the vehicle travels during the driver's [blank_start]reaction[blank_end] time.
Responda
  • THINKING
  • distance
  • reaction

Questão 12

Questão
[blank_start]BRAKING[blank_end] DISTANCE - The [blank_start]distance[blank_end] the car travels under the [blank_start]braking[blank_end] force.
Responda
  • BRAKING
  • distance
  • braking

Questão 13

Questão
Complete the passage about the role of brakes in a car. When the [blank_start]brakes[blank_end] of a vehicle are applied to slow the car down, work is done by the [blank_start]frictional[blank_end] force between the [blank_start]brakes[blank_end] and the [blank_start]wheel[blank_end]. This force reduces the [blank_start]kinetic[blank_end] energy of the vehicle, as energy is [blank_start]transferred[blank_end] into [blank_start]heat[blank_end] (and sound) energy. Therefore, the [blank_start]temperature[blank_end] of the brakes [blank_start]increase[blank_end].
Responda
  • brakes
  • temperature
  • increase
  • frictional
  • brakes
  • wheel
  • kinetic
  • transferred
  • heat

Questão 14

Questão
When a vehicle travels at a constant speed, the resistive forces are balanced with the car's weight.
Responda
  • True
  • False

Questão 15

Questão
The [blank_start]faster[blank_end] an object moves through a [blank_start]fluid[blank_end], the [blank_start]greater[blank_end] the [blank_start]frictional[blank_end] force that acts on it.
Responda
  • faster
  • slower
  • fluid
  • gas
  • liquid
  • air
  • solid
  • greater
  • smaller
  • frictional
  • kinetic
  • braking
  • resistant
  • resultant

Questão 16

Questão
Which of the following statements is false? 1. 'Drag' is another name for air resistance. 2. Friction always opposes movement, even in space. 3. To travel at a steady speed, the driving force and frictional force must be balanced. 4. Friction occurs between two surfaces in contact. 5. Speed is directly proportional to friction.
Responda
  • 1
  • 2
  • 3
  • 4
  • 5

Questão 17

Questão
Fill in the blanks to complete the table showing the movement of an object falling through a fluid.
Responda
  • accelerates
  • acceleration
  • reduced
  • terminal
  • velocity
  • acceleration
  • frictional
  • resultant
  • gravity
  • frictional
  • directly
  • proportional
  • increase

Questão 18

Questão
What are the two factors that impact the terminal velocity of a falling object?
Responda
  • Shape and area.
  • Speed and area.
  • Weight and speed.
  • Weight and shape.
  • Shape and speed.
  • Area and weight.

Questão 19

Questão
Select the correct answers to explain the movement, in terms of forces, of the parachutist at each stage.
Responda
  • Gravity is greater than friction.
  • Gravity is less than friction.
  • Gravity is the same as friction.
  • Forces are directly proportional.
  • Forces are inversely proportional.
  • Forces are balanced.
  • Friction and gravity are balanced.
  • Friction and gravity are not balanced.
  • Friction and drag are balanced.
  • Air resistance is greater than gravity.
  • Air resistance is less than gravity.
  • Air resistance is the same as gravity.
  • Friction and gravity are balanced.
  • Friction and gravity are not balanced.
  • Friction and drag are balanced.

Questão 20

Questão
[blank_start]ELASTIC[blank_end] [blank_start]OBJECT[blank_end] - An object that can return to its [blank_start]original[blank_end] [blank_start]shape[blank_end] after having its [blank_start]shape[blank_end] changed by a [blank_start]force[blank_end].
Responda
  • ELASTIC
  • OBJECT
  • original
  • shape
  • shape
  • force

Questão 21

Questão
When you apply a [blank_start]force[blank_end] to an object, you may cause it to change its [blank_start]shape[blank_end]. A [blank_start]force[blank_end] applied to an [blank_start]elastic[blank_end] object in order to change its [blank_start]shape[blank_end] is stored by the object as [blank_start]elastic[blank_end] potential energy. The [blank_start]elastic[blank_end] potential energy is then converted to [blank_start]kinetic[blank_end] energy when the [blank_start]force[blank_end] is removed, and the object returns to its original [blank_start]shape[blank_end].
Responda
  • shape
  • force
  • force
  • elastic
  • shape
  • elastic
  • elastic
  • kinetic
  • force
  • shape

Questão 22

Questão
The extension of an elastic object is inversely proportional to the force applied to it.
Responda
  • True
  • False

Questão 23

Questão
[blank_start]LIMIT[blank_end] OF [blank_start]PROPORTIONALITY[blank_end] - The [blank_start]maximum[blank_end] force that an [blank_start]elastic[blank_end] object can take and still extend [blank_start]proportionally[blank_end].
Responda
  • LIMIT
  • PROPORTIONALITY
  • maximum
  • elastic
  • proportionally

Questão 24

Questão
When a car is [blank_start]aerodynamic[blank_end], it means that it is shaped so that [blank_start]air[blank_end] flows very easily and smoothly past it, so [blank_start]air[blank_end] [blank_start]resistance[blank_end] is minimised.
Responda
  • aerodynamic
  • air
  • resistance
  • air

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