Progressive and Stationary Waves QP.pdf

Progressive and Stationary Waves


A student investigates stationary waves using microwaves.
1.
Figure 1 shows a metre ruler fixed to a bench. The student places a microwave transmitter T at
one end of the ruler and a vertical metal reflector R at the other end. R is at a right angle to the
ruler.

Figure 1




The student places a microwave detector D approximately one-third of the distance from T to R.
When T is switched off, the microammeter connected to D reads zero.

When T is switched on, stationary waves are produced between T and R, and the microammeter
registers a current. When the student moves D along the ruler, the size of the current changes
between maximum and minimum values.

The student measures the current at different positions of D along the ruler to identify a position
P of the minimum current.




Page 1 of 50

,Progressive and Stationary Waves

Figure 2 is a plot of the measurements taken near P.

Figure 2




(a) Draw a line of best fit for these data.
(2)




Page 2 of 50

,Progressive and Stationary Waves

(b) State a value for the position of P.




position of P = _______________ cm
(1)

The student moves D along the metre ruler towards R and observes a series of maximum and
minimum readings on the microammeter. He identifies Q as the position of the 8th minimum
current from P. He measures the distance PQ to be 50.9 cm, as shown in Figure 3.

Figure 3




(c) The absolute uncertainty in identifying any minimum current is ± 0.2 cm.

Determine the percentage uncertainty in the distance PQ.




percentage uncertainty in PQ = _______________ %
(2)




Page 3 of 50

, Progressive and Stationary Waves

(d) Deduce the frequency of the microwaves produced by T.




frequency = _______________ Hz
(3)

(e) Figure 4 shows D placed at a position where the current is a maximum.

Figure 4




The student rotates D by 90°, without changing its distance from T, to the position shown in
Figure 5. The current is now zero.




Page 4 of 50