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For a displacement boat, speed is a function of waterline length. The maximum theoretical speed is ordinarily assumed to be 1.34 times the square root of the LWL. Speed to Length Ratio = Velocity in Knots Waterline Length = V LWL
Calculate the total displacement given the position as a function of time. Determine the total distance traveled. Calculate the average velocity given the displacement and elapsed time.
Use positive and negative signs to show direction of displacement, velocity and acceleration. Note: When an object is travelling at constant velocity, its acceleration is zero. Then we use the equation v = Nx ___ to calculate constant velocity, Nt displacement or time. Follow this procedure when solving problems with equations of motion:
Understanding and calculating marine displacement is essential for the design and operation of ships. This tutorial delves into the formulas and calculations associated with marine displacement, focusing on length, breadth, draft, and block coefficient.
If the book ends up in its initial position, what is its displacement? b. What is the distance traveled? 3. Light from the sun reaches the Earth in 8.3 minutes. The velocity of light is 3.00 x 108 m/s. How far from Earth is the sun? 4. You and your friend each drive 50.0 km. You travel at 90.0 km/h. Your friend travels at 95 km/h.
Links to Chemistry: Displacement and 1- and 2-dimensional motion may be used in showing conceptual representations of atoms and molecules during reactions. When studying the motion of electrons around the nucleus, velocity and acceleration can be discussed to show how the electron changes speed when it encounters another electron or proton.
a. Calculate the average speed (in m/s) and the average velocity (in m/s) of the skier during the three minutes of recreation. b. Calculate the average velocity (in m/s) of the second minute (from 1 to 2 minutes).
