- #1
nysnacc
- 184
- 3
Homework Statement
Homework Equations
v_theta = r * theta_dot
1 knot = 1852 m
The Attempt at a Solution
v_0 = 6 * (1852m/h) * (1/3600 h/s) = 3.087 m/s
Calculating Sailboat Relative Motion with Equations and Conversions
- Thread starter nysnacc
- Start date
AI Thread Summary
The discussion focuses on calculating the relative motion of a sailboat using equations and wind components. The apparent wind is identified as coming from the west with no north-south component, while the actual wind has a southward component equal to the boat's speed of 6 knots. The boat's motion creates a 3-knot apparent wind from ahead, influenced by the actual wind from the south and west. By combining these vectors, a triangle of velocities is established to determine the overall wind effect on the sailboat. This analysis highlights the importance of understanding both apparent and actual wind in sailing dynamics.
v_theta = r * theta_dot
1 knot = 1852 m
v_0 = 6 * (1852m/h) * (1/3600 h/s) = 3.087 m/s
- #2
tech99
Science Advisor
Gold Member
- 2,987
- 1,390
It looks as if the first picture is telling us that the apparent wind is from the W and has a zero N-S component. So the actual wind must have a component equal and opposite to the boat speed, 6 kt blowing from the S.
In the second picture, the tell tale is responding to 6 kt actual wind from the S, and is feeling 3 kt apparent wind from ahead (6 cos 60). So the
6 kt wind created by the boat's motion is being reduced by an actual wind of 3 kt from the W.
Combining these two pieces of information, the actual wind has a component of 6 kt from the S and 3 kt from the W. So a triangle of velocities will give you the answers.
In the second picture, the tell tale is responding to 6 kt actual wind from the S, and is feeling 3 kt apparent wind from ahead (6 cos 60). So the
6 kt wind created by the boat's motion is being reduced by an actual wind of 3 kt from the W.
Combining these two pieces of information, the actual wind has a component of 6 kt from the S and 3 kt from the W. So a triangle of velocities will give you the answers.
Hi everyone,
Can anyone tell me how do I draw the shear and moment diagram of below pic
using the method like below pic?
This is my attempt/work of the reacting forces:
Thank you very much for the help.
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