9247469
Description
Quiz by Owen Morris, updated more than 1 year ago
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Created by Owen Morris
over 7 years ago
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|
Question 1
Question
What are the six SI units?
Answer
-
Kelvin (K)
-
Amount of a substance (mol)
-
Length (m)
-
Mass (kg)
-
Time (s)
-
Current (A)
-
Energy (J)
-
Power (W)
-
luminous intensity (cd)
Question 2
Question
A Systematic error is the [blank_start]same[blank_end] every time you repeat an experiment.
A [blank_start]Random[blank_end] error is different each time you repeat an experiment.
Answer
-
Random
-
same
Question 3
Question
A result is deemed accurate if it is judged to be [blank_start]close[blank_end] to the [blank_start]actual value[blank_end].
Precision is the [blank_start]degree of exactness[blank_end] to which the measurement of quantity or value can be obtained and [blank_start]reproduced consistently[blank_end].
Answer
-
close
-
actual value
-
degree of exactness
-
reproduced consistently
Question 4
Question
Which six quantities are scalar quantities?
Answer
-
Speed
-
Mass
-
Time
-
Temperature
-
Length
-
Energy
-
Displacement
-
Force
-
Acceleration
-
Momentum
Question 5
Question
Which five quantities are vectors quantities?
Answer
-
Displacement
-
Force
-
Velocity
-
Acceleration
-
Momentum
-
Energy
-
Speed
-
Time
Question 6
Question
Displacement is [blank_start]how far[blank_end] an object has traveled from the [blank_start]starting point[blank_end] in a [blank_start]given direction[blank_end].
Answer
-
how far
-
starting point
-
given direction
Question 7
Question
Velocity is the [blank_start]rate of change of displacement[blank_end].
Answer
-
rate of change of displacement
Question 8
Question
The gradient of a displacement-time graph represents what?
Answer
-
Velocity
-
Acceleration
-
Force
Question 9
Question
The gradient of a velocity-time graph represents what?
Answer
-
Acceleration
-
Displacement
-
Force
Question 10
Question
The area under a velocity-time graph represents what?
Answer
-
Displacement
-
Acceleration
-
Force
-
Work Done
Question 11
Question
To investigate how the distance a trolley has rolled affects its speed, this is the method:
1. Measure the length of trolley
2. Mark [blank_start]start[blank_end] line
3. Measure [blank_start]angle[blank_end] ramp is to the [blank_start]horizontal[blank_end] and distance from start line to light gate
4. Place trolley on ramp and [blank_start]let go[blank_end] (do not push)
5. The data logger will record the time taken for the trolley to pass through the light gate and calculate the [blank_start]velocity[blank_end] of the trolley as it passes through the gate.
6. change starting position and repeat [blank_start]3[blank_end] or more times
Answer
-
start
-
finish
-
mid-point
-
angle
-
distance
-
force
-
horizontal
-
vertical
-
let go
-
push
-
velocity
-
displacement
-
acceleration
-
3
-
1
-
2
Question 12
Question
When investigating acceleration due to gravity, what is the equation to work out h?
Answer
-
h=1/2gt²
-
h=gt²
-
s=1/3at²
-
s=ut + 1/2at²
Question 13
Question
In projectile motion, the vertical component of an object stays constant.
Answer
- True
- False
Question 14
Question
Which two values can you work out using the vertical component in projectile motion?
Answer
-
Time the object is in the air
-
How high and object goes or falls
-
How far an object goes while it's in the air
-
The speed at which the object goes upwards
Question 15
Question
What does the area under a force-time graph represent?
Answer
-
Impulse
-
Outpulse
-
Acceleration
-
Displacement
-
Elastic Potential Energy
Question 16
Question
A moment is the [blank_start]turning[blank_end] effect of a [blank_start]force[blank_end].
Answer
-
turning
-
linear
-
gravitational
-
force
-
GPE
Question 17
Question
The principle of moments states: the sum of the clockwise moments = the sum of the anticlockwise moments. Is this true?
Answer
- True
- False
Question 18
Question
Gravitational Potential Energy is the [blank_start]energy[blank_end] an object has due to its [blank_start]position[blank_end] in the [blank_start]gravitational field[blank_end].
Answer
-
energy
-
position
-
gravitational field
Question 19
Question
What is the equation for working out GPE?
Answer
-
E = mgh
-
E = (mv^2)/2
-
F = ma
Question 20
Question
What are the three factors affecting drag?
Answer
-
Mass
-
Shape
-
Liquid
-
Speed
Question 21
Question
Newton's First Law: a body will remain at [blank_start]rest[blank_end] or continue to travel in a straight line at a [blank_start]constant speed[blank_end], unless acted upon by a [blank_start]net force[blank_end].
Newton's Second Law: Rate of [blank_start]change of momentum[blank_end] of an object is directly [blank_start]proportional[blank_end] to the [blank_start]net force[blank_end] applied to that object.
Newton's Third Law: Every action has an [blank_start]equal[blank_end] and [blank_start]opposite[blank_end] reaction.
Answer
-
rest
-
constant speed
-
net force
-
change of momentum
-
proportional
-
net force
-
equal
-
opposite
Question 22
Question
What is the special case of Newton's Second Law?
Answer
-
F = ma, where mass is constant
-
F = pa
-
F = A/P
Question 23
Question
Current is the flow of [blank_start]electrons[blank_end] in a metal and ions in an [blank_start]electrolyte[blank_end].
Answer
-
electrons
-
electrolyte
Question 24
Question
Kirchoff's first law is: the total current entering a junction is equal to the total current exiting it.
Answer
- True
- False
Question 25
Question
Kirchoff's second law is: the total e.m.f around a [blank_start]series[blank_end] circuit is equal to the sum of [blank_start]p.d[blank_end]s across each [blank_start]component[blank_end]
Answer
-
series
-
p.d
-
component
Question 26
Question
Semiconductors have fewer charge carriers that in a metal, what needs to be higher so that the same current can flow?
Answer
-
Mean Drift Velocity
-
Resistance
-
Voltage
-
Charge
-
Kinetic Energy
Question 27
Question
What electrical component is this?
Answer
-
LDR (Light Dependent Resistor)
-
Thermistor
-
Resistor
-
LED (Light Emitting Diode)
Question 28
Question
What electrical component does this I-V graph represent?
Answer
-
Ohmic Conductor (e.g Resistor)
-
Filament Lamp
-
Thermistor
-
Diode
Question 29
Answer
-
Ohmic Conductor (e.g Resistor)
-
Filament Lamp
-
Thermistor
-
Diode
Question 30
Answer
-
Ohmic Conductor (e.g Resistor)
-
Filament Lamp
-
Thermistor
-
Diode
Question 31
Question
Lost volts is the [blank_start]energy wasted per coulomb[blank_end] overcoming the [blank_start]internal resistance[blank_end].
Answer
-
energy wasted per coulomb
-
internal resistance
Question 32
Question
Which one of the following answers is correct?
Answer
-
Intensity ∝ (Amplitude)²
-
Intensity ∝ Amplitude
-
Intensity ∝ (Amplitude)³
-
Intensity ∝ (Power)³
Question 33
Question
Electromagnetic Waves are transverse waves consisting of vibrating [blank_start]electric[blank_end] and magnetic [blank_start]fields[blank_end].
Answer
-
electric
-
fields
Question 34
Question
The principle of superposition says that:
When two or more waves cross, the [blank_start]resultant displacement[blank_end] equals the [blank_start]vector sum[blank_end] of the [blank_start]individual displacements[blank_end].
Answer
-
resultant displacement
-
vector sum
-
individual displacements
Question 35
Question
For two waves to be coherent, they must have the same [blank_start]frequency[blank_end] and [blank_start]wavelength[blank_end] and have a [blank_start]fixed phase difference[blank_end].
Answer
-
frequency
-
wavelength
-
fixed phase difference
Question 36
Question
With which wavelength do you get the lowest resonant frequency in a pipe with one end open and the other closed?
Answer
-
λ/4
-
λ/2
-
λ/3
-
3λ/2
-
λ
Question 37
Question
With which wavelength do you get the lowest resonant frequency in a pipe with both ends closed?
Answer
-
λ/2
-
λ/4
-
λ/3
-
3λ/2
Question 38
Question
How do you convert J to eV?
Answer
-
Multiply eV by 1.6x10^-19
-
Divide eV by 1.6x10^-19
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