COMMUNICATION SYSTEM Quiz-14
Dear Readers,
As per analysis for previous years, it has been observed that students preparing for NEET find Physics out of all the sections to be complex to handle and the majority of them are not able to comprehend the reason behind it. This problem arises especially because these aspirants appearing for the examination are more inclined to have a keen interest in Biology due to their medical background.
Furthermore, sections such as Physics are dominantly based on theories, laws, numerical in comparison to a section of Biology which is more of fact-based, life sciences, and includes substantial explanations. By using the table given below, you easily and directly access to the topics and respective links of MCQs. Moreover, to make learning smooth and efficient, all the questions come with their supportive solutions to make utilization of time even more productive. Students will be covered for all their studies as the topics are available from basics to even the most advanced. .
Q1. Which one of the following statements is wrong?
Solution
Within the skip distance neither the ground waves nor the sky waves are received
Within the skip distance neither the ground waves nor the sky waves are received
Q2.A step index fibre has a relative refractive index of 0.88%. What is the critical angle at the corecladding interface
Solution
Here (μ1-μ2)/μ1 =0.88/100⇒μ2/μ1 =0.9912
Here (μ1-μ2)/μ1 =0.88/100⇒μ2/μ1 =0.9912
∴ Critical angle θc=sin-1(μ2/μ1 )=sin-1(0.9912)=82°24'
Q3. Venus looks brighter than other stars, due to
Solution
Venus looks brighter than other stars because it is closer to earth than other stars.
Venus looks brighter than other stars because it is closer to earth than other stars.
Q4. The SKIP ZONE in Radio Wave Transmission is that range where
Solution
There is no reception of either ground wave or sky wave
There is no reception of either ground wave or sky wave
Q5.An earth satellite emits a radio signal of frequency 108 Hz. An observer on the ground detects beats between the received signal and a local signal also of frequency 108 Hz. At a particular moment, the beat frequency is 2400 Hz. What is the component of satellite velocity directed towards earth at this moment?
Solution
Here, v-v'=∆v=2400 Hz
Here, v-v'=∆v=2400 Hz
As ∆v=vv/c
or v=c∆v/v=(3×108×2400)/108 =7200 ms-1
Q6. A diode AM detector with the output circuit consisting of R=1 kW andC=1 μF would be more suitable for detecting a carrier signal of
Solution
Given R=1 kΩ Or R=1×103 C=1μF C=1×10-6 F
Given R=1 kΩ Or R=1×103 C=1μF C=1×10-6 F
In this condition frequency of carrier signal
1/Rc <<fc
1/1×103×10-6 <<fc ∴fc>>1 kHz Because frequency greater than 1
So fc=10 kHz
Q7.If sky wave with frequency of 50 MHz is incident on D region at an angle of 30°, then angle of refraction is
Solution
For D-region, N=109 m-3 μ=√(1-(81.45 N)/v2 )=√(1-(81.45×109)/(50×106 )2 )=1 μ=sini/sinr =1 Or sinr=sini or r=i=30°
For D-region, N=109 m-3 μ=√(1-(81.45 N)/v2 )=√(1-(81.45×109)/(50×106 )2 )=1 μ=sini/sinr =1 Or sinr=sini or r=i=30°
Q8. What is the refractive index of the fiber core?
Solution
Taking refraction from air to core of optical fiber. Then, μ1/μ0 =sin 10°/sin 7° =0.1736/0.1219=1.424 or μ1=1.424 (asμ2=1)
Taking refraction from air to core of optical fiber. Then, μ1/μ0 =sin 10°/sin 7° =0.1736/0.1219=1.424 or μ1=1.424 (asμ2=1)
Q9.A laser beam of pulse power 1012 W is focused on an object of area 10-4 cm2. the energy flux in Wcm2 at the point of focus is
Solution
Electric flux Ï•=(pulse power)/area =1012/10-4 =1016 Wcm-1
Electric flux Ï•=(pulse power)/area =1012/10-4 =1016 Wcm-1
Q10. When the modulation percentage is 75, an AM transmitter produces 10 kW. How much of this is carrier power?
Solution
Pt=Pc (1+m2/2) Pc=Pt/1+m2/2 =10/1+1/2 (3/4)2 =10×32/41 Pc=7.81 kw
Pt=Pc (1+m2/2) Pc=Pt/1+m2/2 =10/1+1/2 (3/4)2 =10×32/41 Pc=7.81 kw
