How Can You Approach Steve Without Being Doppler-Shifted?

In summary, the article explores strategies for approaching someone named Steve without being perceived as overly eager or intrusive, metaphorically described as being "Doppler-shifted." It suggests maintaining a balanced demeanor, using humor, and engaging in genuine conversation to create a comfortable environment. The focus is on fostering authentic connections while avoiding overwhelming energy that could lead to misunderstandings.
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jcsd
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TL;DR Summary
A puzzle relating to motion of a body when restrictions are placed on the Doppler shift of the body as viewed by an observer
Hello

I have not posted here for a while, but just wanted to post this puzzle I devised. Was posted on Reddit, but no takers. I think the solution is interesting.

The Puzzle

You are flying around in space and you see your friend Steve chilling in an inertial frame in his own spaceship and you wish to go over to his spaceship to say hello. However if Steve sees you to be even slightly Doppler-shifted as you approach him he will not recognise you and he will accelerate off such that you can never catch him. Steve is also very impatient so you must minimize the time taken in his frame to reach him.

What speed (in Steve's frame) should your spaceship travel in to reach Steve?

There is no solution for 1 dimension of space, but you can just look at 2 dimensions of space as the 3D solution is the same.

The solution does not involve anything silly or designed to trick like travelling at the speed of light, undefined Doppler shift or Steve leaving his inertial frame.
 
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You could paint your spaceship black.
 
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I like the lateral thinking but not the answer I was thinking of!

Your path must be a logarithmic spiral in which you travel at constant speed in Steve's frame (or another space curve that will give the same answer). The time taken is proportional to your radial distance from Steve, and that proportion can be expressed as a function of the speed, differentiating the answer is c*sqrt(3/4)
 
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jcsd said:
I like the lateral thinking but not the answer I was thinking of!

Your path must be a logarithmic spiral in which you travel at constant speed in Steve's frame (or another space curve that will give the same answer). The time taken is proportional to your radial distance from Steve, and that proportion can be expressed as a function of the speed, differentiating the answer is c*sqrt(3/4)

Oops in fact I've made a mistake and the puzzle isn't quite as interesting. the answer is just as close to c as possible.
 
  • #5
Fastest approach speed is c. Just as it was on reddit.

Edit: In fact, this is very intuitive. As you get closer to the speed of light in Steve’s frame, the angle for a net shift of zero tends to align towards the direction of Steve. So it is quite natural that the max approach speed is c.
 
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FAQ: How Can You Approach Steve Without Being Doppler-Shifted?

What is Doppler shift and why does it matter when approaching Steve?

The Doppler shift refers to the change in frequency or wavelength of a wave in relation to an observer moving relative to the source of the wave. It matters when approaching Steve because if you are moving towards him, the frequency of any waves (like sound) you emit will increase, potentially altering how your approach is perceived.

Can you approach Steve without causing a Doppler shift?

In theory, the only way to approach Steve without causing a Doppler shift is to move at a constant velocity that is equal to zero relative to him. This means either both of you are stationary or moving together at the same speed and direction.

What are practical methods to minimize Doppler shift effects when approaching Steve?

To minimize Doppler shift effects, you can approach Steve very slowly so that the shift is negligible, or coordinate with him to move at the same speed and direction, effectively nullifying any relative motion between you two.

How does the Doppler shift affect communication with Steve?

If you are moving towards Steve, the frequency of your voice will increase, potentially making it sound higher-pitched. Conversely, if you are moving away, your voice may sound lower-pitched. This can affect the clarity and perception of your communication.

Are there any technological solutions to counteract Doppler shift when approaching Steve?

Yes, there are technological solutions such as Doppler shift correction algorithms used in communication devices. These can adjust the frequency of the transmitted signal to counteract the effects of relative motion, ensuring that Steve hears you at the intended pitch and frequency.

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