Answer:
The minimum difference between the lengths of the two tubes should be 0.385 meters.
Explanation:
As we known that for any two waves to arrive in phase at any point the difference in the path traveled by the waves should be an integral multiple of the wavelength of the wave.
Mathematically we can write:
For the given wave we have
Applying values we get
Thus the minimum difference in the lengths of the tubes can be obtained by putting the value of n = 1
Answer:
<em>In order from largest to smallest these terms are:</em>
- <em>In order from largest to smallest these terms are:Universe</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxy</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxySolar system</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxySolar systemStar</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxySolar systemStarPlanet</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxySolar systemStarPlanetMoon</em>
- <em>In order from largest to smallest these terms are:UniverseGalaxySolar systemStarPlanetMoonAsteroid</em>
<em>In order from largest to smallest these terms are:UniverseGalaxySolar systemStarPlanetMoonAsteroidWe can generally say that a Moon is larger than an asteroid however some moons are quite large while others are smaller than many known asteroids. Asteroids are small rocky bodies that orbit the Sun, while moons are objects that orbit planets. Jupiter and Saturn have attracted many objects out of the asteroid belt and gathered them as moons.</em>
Answer:
A roller coaster going downhill at 65, 66, and 67 miles per hour! Please mark me as brainiest! :)
Explanation:
Answer:adjkfdashkjfhdskjfhkjahkj
Explanation:
<h2>
Speed of the race car at the end of the run is 97.57 m/s</h2>
Explanation:
We have equation of motion v² = u² + 2as
Initial velocity, u = 0 m/s
Acceleration, a = 11.9 m/s²
Final velocity, v = ?
Displacement,s = 400 m
Substituting
v² = u² + 2as
v² = 0² + 2 x 11.9 x 400
v = 97.57 m /s
Speed of the race car at the end of the run is 97.57 m/s