# Recent questions tagged wavelength

There is a container full of coloured bottles, red, blue, green and orange. Some of the bottles are picked out and displaced. Sumit did this 1000 times and got the following results:There is a container full of coloured bottles, red, blue, green and orange. Some of the bottles are picked out and displaced. Sumit did this 1000 time ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is Meant by the term Wavelength?
What is Meant by the term Wavelength?What is Meant by the term Wavelength? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Given velocity $v$ and the frequency $f$ of a wave, what is the formula for the wavelength $\lambda$?
Given velocity $v$ and the frequency $f$ of a wave, what is the formula for the wavelength $\lambda$?Given velocity $v$ and the frequency $f$ of a wave, what is the formula for the wavelength $\lambda$? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Is the electromagnetic spectrum continuous?
Is the electromagnetic spectrum continuous?Is the electromagnetic spectrum continuous? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Different types of electromagnetic radiation have different wavelengths. This can influence their properties and what each could be used for in our daily lives.
Different types of electromagnetic radiation have different wavelengths. This can influence their properties and what each could be used for in our daily lives.Different types of electromagnetic radiation have different wavelengths. This can influence their properties and what each could be used for in our da ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Arrange the following three types of electromagnetic radiation in order of increasing wavelength:
Arrange the following three types of electromagnetic radiation in order of increasing wavelength:Arrange the following three types of electromagnetic radiation in order of increasing wavelength: 1. microwave radiation 2. ultraviolet light 3. blue ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
The table below shows different types of electromagnetic radiation, arranged according to their typical frequencies.
The table below shows different types of electromagnetic radiation, arranged according to their typical frequencies.The table below shows different types of electromagnetic radiation, arranged according to their typical frequencies. \ \begin{array}{|l|l|} \hline \ ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Identify the type of electromagnetic radiation for each of the wavelengths.
Identify the type of electromagnetic radiation for each of the wavelengths.Different types of electromagnetic radiation have different wavelengths. This can influence their properties and what each could be used for in our da ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Arrange the following three types of electromagnetic radiation in order of increasing wavelength:
Arrange the following three types of electromagnetic radiation in order of increasing wavelength:Arrange the following three types of electromagnetic radiation in order of increasing wavelength: &nbsp; 1. X-rays 2. violet light 3. orange light ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What are the wavelength and frequency ranges of the divisions of the electromagnetic spectrum?
What are the wavelength and frequency ranges of the divisions of the electromagnetic spectrum?What are the wavelength and frequency ranges of the divisions of the electromagnetic spectrum? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Arrange the following group of colored lights in the order of INCREASING wavelength: RED, ORANGE, GREEN, BLUE
Arrange the following group of colored lights in the order of INCREASING wavelength: RED, ORANGE, GREEN, BLUEArrange the following group of colored lights in the order of INCREASING wavelength: RED, ORANGE, GREEN, BLUE ...
close
As the temperature of the air increases from 0 degrees C to 20 degrees C, the wavelength of a sound made by a tuning fork of fixed frequency does which of the following? Does the wavelengthAs the temperature of the air increases from 0 degrees C to 20 degrees C, the wavelength of a sound made by a tuning fork of fixed frequency does whic ...
close
An organ pipe which is open at both ends resonates at its fundamental frequency. Neglecting any end effects, what wavelength is formed by this pipe in this mode of vibration if the pipe is 2 meters long?An organ pipe which is open at both ends resonates at its fundamental frequency. Neglecting any end effects, what wavelength is formed by this pipe in ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
A quarter of a wavelength is equal to how many degrees of phase?
A quarter of a wavelength is equal to how many degrees of phase?A quarter of a wavelength is equal to how many degrees of phase? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
A standing wave is formed on a tightly stretched string. The distance between a node and an antinode is:
A standing wave is formed on a tightly stretched string. The distance between a node and an antinode is:A standing wave is formed on a tightly stretched string. The distance between a node and an antinode is: w) 1/8 wavelength x) 1/4 wavelength y) 1/2 ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
The speed at which a wave propagates down a string is 300 meters per second. If the frequency of this wave is 150 Hertz, what is the wavelength of this wave?
The speed at which a wave propagates down a string is 300 meters per second. If the frequency of this wave is 150 Hertz, what is the wavelength of this wave?The speed at which a wave propagates down a string is 300 meters per second. If the frequency of this wave is 150 Hertz, what is the wavelength of thi ...
close
A $475 \mathrm{~nm}$ wavelength laser produces a diffraction pattern using a diffraction grating of slit spacing D. What is the range of values D can have that will produce exactly 15 bright spots on a screen $10.0$ meters away.A $475 \mathrm{~nm}$ wavelength laser produces a diffraction pattern using a diffraction grating of slit spacing D. What is the range of values D can ...
close
Which expression could be correct for the velocity $v$ of ocean waves in terms of $\rho$ the density of seawater, $g$ the acceleration of free fall, $h$ the depth of the ocean and $\lambda$ the wavelength?Which expression could be correct for the velocity $v$ of ocean waves in terms of $\rho$ the density of seawater, $g$ the acceleration of free fall, $... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 A radio aerial of length$L$, when the current is$I$, emits a signal of wavelength$\lambda$and power,$P$, these quantities are related by: 1 answer 325 views A radio aerial of length$L$, when the current is$I$, emits a signal of wavelength$\lambda$and power,$P$, these quantities are related by:A radio aerial of length$L$, when the current is$I$, emits a signal of wavelength$\lambda$and power,$P$, these quantities are related by: \ P = ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 When$E$is measured in electrovolts and$\lambda$in nanometres, what is the numerical value of$K$? 1 answer 193 views When$E$is measured in electrovolts and$\lambda$in nanometres, what is the numerical value of$K$?The relation between the energy$E$of a photon and its wavelength$\lambda$is \ E = \dfrac{K}{\lambda} \ where$K$is a constant. When$E$is ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 Does increasing amplitude change the frequency or wavelength of a wave? 0 answers 240 views Does increasing amplitude change the frequency or wavelength of a wave?Does increasing amplitude change the frequency or wavelength of a wave? ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 Why cant we hear sound with frequency above 20 000 Hz? 0 answers 173 views Why cant we hear sound with frequency above 20 000 Hz?Why cant we hear sound with frequency above 20 000 Hz? ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 if the period of a wave increases does wavelength increase with it ? 0 answers 103 views if the period of a wave increases does wavelength increase with it ?if the period of a wave increases does wavelength increase with it ? ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 A learner hiding behind an open door of a room can hear people talking outside the room although he cannot see them. 1 answer 116 views A learner hiding behind an open door of a room can hear people talking outside the room although he cannot see them.A learner hiding behind an open door of a room can hear people talking &nbsp;outside the room although he cannot see them. The reason for this is that ... close Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993 The observed wavelength of the$\pi -> \pi^{*}$electronic transition in ethylene is in the ultraviolet near 1 answer 104 views The observed wavelength of the$\pi -> \pi^{*}$electronic transition in ethylene is in the ultraviolet nearThe observed wavelength of the$\pi -&gt; \pi^{}\$ electronic transition in ethylene is in the ultraviolet near ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
For light of wavelength 540 nm, determine which of the following slits widths results in the maximum and which results in the minimum amount of diffraction.
For light of wavelength 540 nm, determine which of the following slits widths results in the maximum and which results in the minimum amount of diffraction.For light of wavelength 540 nm, determine which of the following slits widths results in the maximum and which results in the minimum amount of diffra ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Red light of frequency and wavelength shines on an object.