That depends on what shore you're talking about, the streams that come by that shore, the earth's seismic activity and the weather. You'd have to be more specific for a numerical answer.
Ignoring air resistance . . .H = 1/2 G t2t = sqrt(2H/G) = sqrt(2 x 363 / 32.2) = 4.75 seconds (rounded)
If the ball was dropped from a roof and hit the ground 3.03 seconds later, then when it hit the groundits velocity was 29.694 meters (97.42 feet) per second (rounded) downward.
a radar uses a "parabolic" dish to capture the radio waves and because the shape is concave the waves hit the centre of the dish, the receiver is placed away from the centres facing the dish where the waves are reflected to it. The classic example is satellite dish receivers
On Earth gravity equals 9.8 m/s^2. If you multiply that by 8 seconds you get: 78.4m/s
Speed / Distance=Time 2283.6211MPH/60KM= 61.25219859267292 seconds
When waves hit the shore it transfers energy.
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Yes they do. Only very few waves hit the shore straight on.
It depends on the wind direction. The waves may be straight on to the shore, or hit the shore at an angle.
Waves hit the shore many times per minute, but it varies so greatly. The wind changing can result in a change of this number. Any storms out in the ocean can change it as well.
Long-shore currents don't form in places where waves hit the shore head-on because the sand is moving in a zigzag pattern, making it at an angle.
people for fish hit the correl and the waves cary it to the shore and beach it
1 wave / 8 seconds = 0.125 waves per second
Angled waves create a current that runs parallel to the coatline. As waves repeatedly hit the beach, some of the beach sediment moves down the beach with the current.
Think about it. Its a lake. The waves have to move towards shore. The real answer is that boats that you dont see further out on the lake make waves that hit all sides of the lake and will travel the full length of the lake, no matter what size.
Waves approach a shore obliquely (at an angle) due to the effects or the tides, currents the coriolis effect etc. and then retreat due to gravity straight. A good analogue is to roll a marble up a slope at an angle; it will fall more linearly on its return. Hope this helps.