CWNP Exam CWISA-102 Topic 3 Question 18 Discussion

Actual exam question for CWNP's CWISA-102 exam

Question #: 18
Topic #: 3

[All CWISA-102 Questions]

As an RF signal propagates it becomes weaker as it gets farther away from the transmitter. What concept is described?

AFree Space Path Loss

BRF latency

CBeamwidth

DDiffraction

Show Suggested Answer

Suggested Answer: A

The concept described isFree Space Path Loss (FSPL). FSPL refers to the reduction in power density of an electromagnetic wave as it propagates through a clear, unobstructed path in free space. This weakening of the signal is due to the spreading of the wavefront as it travels, causing the power to be distributed over a larger area. The FSPL can be calculated using the Friis Transmission Equation, which shows that the received power decreases with the square of the distance from the transmitter. This concept is fundamental to understanding the behavior of RF signals in various communication systems, including wireless IoT, where the signal strength at the receiver is a critical factor for reliable data transmission.

References: The information provided aligns with the Friis Transmission Equation, which models how the power of an RF signal decreases with distance1.Additionally, the concept of FSPL is a well-known phenomenon in RF propagation, affecting the design and optimization of wireless communication systems

by Lenora at Sep 13, 2024, 04:16 AM

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Kanisha

1 months ago

Wait, is this a trick question? Are they looking for 'Inverse Square Law' or something? I'm overthinking this, aren't I?

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Kristin

1 months ago

RF latency? Nah, that's not about signal strength, that's all about the time it takes to get there. Nice try, though.

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Fletcher

1 months ago

Beamwidth? Really? Unless the transmitter is a disco ball, I don't think that's the right answer.

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Jesusa

16 days ago

Yeah, the signal weakens as it travels through space.

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Lauran

22 days ago

I think it's A) Free Space Path Loss.

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Kris

23 days ago

D) Diffraction

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Kenneth

29 days ago

A) Free Space Path Loss

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Micaela

1 months ago

Hmm, I'm gonna go with Diffraction on this one. Gotta love that good ol' wave bending action.

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Fletcher

2 months ago

Free Space Path Loss for sure! That's basic RF 101.

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Dalene

8 days ago

C) Beamwidth

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Carlee

9 days ago

B) RF latency

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Linwood

14 days ago

Definitely Free Space Path Loss.

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Shayne

1 months ago

A) Free Space Path Loss

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Lauran

2 months ago

Free Space Path Loss. It's like the signal is getting tired of traveling and just decides to take a nap before it reaches the receiver. Where's the energy drink for signals when you need it?

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Maryanne

20 days ago

B) RF latency

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Corinne

21 days ago

Maybe we can invent an energy drink for signals to keep them going strong!

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Pansy

22 days ago

C) Beamwidth

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Laila

24 days ago

I know right, it's like the signal needs a boost to keep going!

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Glenna

25 days ago

D) Diffraction

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Johnna

1 months ago

A) Free Space Path Loss

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Ettie

2 months ago

RF latency? Come on, that's about the time it takes for the signal to reach the receiver, not the strength. This is clearly about Free Space Path Loss.

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Ashley

2 months ago

Diffraction, for sure! The signal is probably bending around obstacles and losing strength. Gotta love those pesky physics concepts!

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Keena

23 days ago

I agree! Understanding diffraction helps us optimize signal strength and coverage in wireless communication.

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Kina

24 days ago

Definitely! Diffraction plays a big role in signal propagation. It's fascinating how it interacts with obstacles.

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Diane

25 days ago

Diffraction, for sure! The signal is probably bending around obstacles and losing strength. Gotta love those pesky physics concepts!

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Glendora

28 days ago

D) Diffraction

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Francoise

30 days ago

C) Beamwidth

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Barrie

1 months ago

B) RF latency

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Beatriz

2 months ago

A) Free Space Path Loss

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Brynn

2 months ago

I'm going with Beamwidth. The transmitter's signal is probably just too narrow to reach the far end of the room. Maybe it needs some more antenna gain?

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