REQUIRED PRACTICALS Flashcards
1
Q
RP1 - motion method
A
- mark a starting/finish line using tape
- measure distance round track using trundle wheel
- start stopwatch when runner leave, stop when crosses
- have three different people time to find mean
- calculate average using speed = distance/time
2
Q
ticker tape
A
- 50 dots in a second
- speed = distance/time
3
Q
RP2 - hookes law
A
- measure initial length of spring using set square and a ruler
- hang 10N mass and measure extended length
- calculate extension
- repeat using increasing mass of 10N each time
- plot a graph of extension against load to see if it creates a straight line through the origin meaning it obeys hooke’s law
4
Q
RP3 - electrostatics
A
- charge polythene rod by rubbing it with cloth
- hang from clamp using strong so it can swing
- charge a second polythene rod with cloth
- hold it near hanging rod - repel since the same
- do the same with acetate rod - attract as different charge
5
Q
RP4 - critical angle
A
if angle of incidence is SMALLER than critical angle it will reflect out
if angle of incidence is GREATER, it will undergo TIR
6
Q
RP5 - refractive index
A
- place rectangular block on piece of paper and draw round it
- shine a light from ray box through it
- trace pathway of ray
- remove block and draw in normal with protractor
- measure incidence and refracted angle
- calculate sin i/sin r or plot a graph and gradient is RI
7
Q
RP6 - speed of sound in air
A
- measure 100m using a trundle wheel
- at one end, having someone make loud noice by hitting sticks together
- at other end have other person start stopwatch from when they hear the sound to when they see it
- repeat 5 times and find mean
- calculate by using speed = distance/time
8
Q
RP7 - frequency of sound
A
- connect microphone to the CRO (oscilloscope) using the leads
- create a steady sound using a speaker
- adjust time base so one complete wave is on screen
- count number of divisions for one complete wave
- calculate the time period by divisions x time base
- calculate frequency by using f = 1/T
9
Q
RP8 - thermal energy transfer (conduction)
A
- Bunsen burner heats up end of rod
- particles at hot end vibrate more
- wax melts and paper clips fall from 4 - 1
10
Q
RP9 - density
A
- measure mass using balance
- fill a measuring cylinder halfway with water
- record initial volume from eye leaves at meniscus
- lower rock into measuring - cylinder and measure final volume
- take initial away from final
- use equation density = mass/volume
11
Q
RP10 - specific heat capacity
A
- measure mass of block using a balance
- measure initial temp of block using thermometer
- record current and voltage supplied to the heater
- heat to 20 degrees
- turn off heater and start stopwatch
- record highest temp of block
- calculate temp change
- calculate energy supplied to block by using E = IVt
- calculate specific heat capacity by c = energy supplied/mass x change in T
12
Q
RP11 - magnetic fields (iron fillings)
A
- place magnet under paper
- sprinkle iron fillings evenly around paper
- tap to get filings to line up to show field
13
Q
RP12 - radiation (background count)
A
- remove any sources from near the GM tube
- turn on counter and record for 10 minutes
- calculate the counts per second
14
Q
RP 13 - IV graphs
A
- vary the voltage across component using variable resistor
- record voltage across component
- record current through component
- repeat and find means
plot graph of current against voltage
15
Q
RP14 - changes of state
A
- remove test tube of stearic acid from hot water bath
- place test tube into a beaker of warm water
- record the initial temp of stearic acid
- start stopwatch and record the temperature of the stearic acid every minute until it falls to 50 degrees
- plot graph of temp against time
