A tide table is a table that shows the predicted times and heights of high and low tides. Tide tables are usually published by the National Oceanic and Atmospheric Administration (NOAA).
Tide tables are important for boaters, fishermen, and other people who use the water. They can use the tide tables to predict when the best time is to go fishing or to go boating.
The tide table for Puget Sound is published by NOAA. The table shows the predicted times and heights of high and low tides for the year 2019. The table also includes information on the tidal currents.
The tide table for Puget Sound is available on the NOAA website.
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What time is high tide in Puget Sound?
The tidal range in Puget Sound is about six feet, and the tidal currents are among the strongest in the United States. The tidal waves are caused by the gravitational pull of the moon and the sun. The tidal range is especially high during the full and new moon, and during the perigee, when the moon is closest to the earth.
The tidal waves are highest on the coast and get weaker as you move inland. The highest tidal waves are in the Strait of Juan de Fuca, where they can be up to sixteen feet high. The tidal waves are weakest in the Black Hills, where they are only about two feet high.
Tides are also affected by the shape of the coastline and the depth of the water. The tidal waves are highest on the open coast, where the water is deep and the coastline is smooth. The tidal waves are weakest in the bays and estuaries, where the water is shallow and the coastline is rough.
The tidal waves in Puget Sound are highest at about noon and at about midnight. The tidal waves are lowest at about 6:00 am and at about 6:00 pm.
Are there tides in Puget Sound?
Are there tides in Puget Sound?
The tides in Puget Sound are affected by the gravitational pull of the moon and the sun. The tidal range (the difference between the high and low tide) is about six feet in Puget Sound. The tidal current is strongest near the surface and diminishes with depth.
The tidal current in Puget Sound is caused by the difference in water levels between the high and low tide. When the tide is high, the water level is higher on the east side of the sound than on the west side. This difference in water levels creates a current that flows from east to west. When the tide is low, the water level is higher on the west side of the sound than on the east side, and the current flows from west to east.
Why are tides so high in Puget Sound?
The tides in Puget Sound are some of the highest in the world. So what causes this?
Puget Sound is located in a unique place on the earth. The sound is located between two mountain ranges, the Olympic Mountains and the Cascade Mountains. This creates a bottleneck-like effect, which amplifies the tidal waves.
The gravitational pull of the moon and sun also play a role in the high tides. The tides are at their highest when the moon and sun are in alignment. This happens twice a month, during the new moon and full moon.
The topography of Puget Sound also contributes to the high tides. The sound is deep and narrow, which causes the tidal waves to be concentrated.
All of these factors contribute to the extremely high tides in Puget Sound.
What time is low tide in Seattle today?
Seattle is located in the Pacific Northwest region of the United States. The city is situated on an isthmus between Puget Sound and Lake Washington. Seattle experiences a mild climate with average rainfall and temperatures.
The tides in Seattle are determined by the gravitational pull of the moon and sun. The tidal range is the difference between the high and low tide. The tidal range in Seattle is around six feet. The tidal current is the speed of the water as it moves in and out. The tidal current in Seattle is around three miles an hour.
The tidal cycle is the time it takes for the water to go from high to low and back to high again. The tidal cycle in Seattle is around 12.3 hours. The time of high tide and low tide shifts daily.
The table below shows the high tide and low tide for Seattle on January 1, 2019.
The table below shows the high tide and low tide for Seattle on January 15, 2019.
The table below shows the high tide and low tide for Seattle on January 31, 2019.
The table below shows the high tide and low tide for Seattle on February 14, 2019.
The table below shows the high tide and low tide for Seattle on March 1, 2019.
The table below shows the high tide and low tide for Seattle on March 15, 2019.
The table below shows the high tide and low tide for Seattle on March 31, 2019.
The table below shows the high tide and low tide for Seattle on April 14, 2019.
The table below shows the high tide and low tide for Seattle on April 30, 2019.
The table below shows the high tide and low tide for Seattle on May 14, 2019.
The table below shows the high tide and low tide for Seattle on May 30, 2019.
The table below shows the high tide and low tide for Seattle on June 14, 2019.
The table below shows the high tide and low tide for Seattle on June 30, 2019.
What is slack water after high tide?
What is slack water after high tide?
Slack water is the period of time between the ebb and flow of the tide. It is the moment when the water is at its calmest and most still. This occurs when the tidal range (the difference between high and low tide) is at its smallest.
After high tide, the water level gradually falls as the tide recedes. This leaves behind a stretch of water known as the slack tide. The slack tide is a temporary phenomenon that only lasts for a few hours. It is the calmest and most still part of the tidal cycle.
The slack tide is an important time for marine life. It is when the fish and other creatures in the water are most active. For this reason, it is a popular time for fishing.
What are the tides today near me?
The tides are the rise and fall of the ocean’s surface caused by the gravitational attraction of the moon and sun. The tidal range is the difference between the high and low tide. Tides are semi-diurnal, which means that they rise twice a day, once around the time of sunrise, and again around the time of sunset.
The tidal range is greatest near the coasts and smallest inland. The tidal range also depends on the shape of the coastline and the depth of the water. The tidal range is highest when the moon is closest to the Earth (called a “perigee moon”) and lowest when the moon is farthest from the Earth (called an “apogee moon”).
The tidal range is also affected by the Earth’s rotation. The tidal range is highest when the Earth is at its fastest rotation (called a “neap tide”), and lowest when the Earth is at its slowest rotation (called a “spring tide”).
The tidal range can be predicted using tidal charts. Tidal charts show the predicted tidal range for a particular location at a particular time. Tide tables show the predicted tidal range for all of the days in a particular month.
People can also listen to the tides using a tidal stream gauge. A tidal stream gauge measures the height and direction of the water’s surface. This information can be used to predict the tidal range.
The tidal range varies from place to place and day to day. The National Ocean Service provides current tidal information for over 7,000 locations in the United States.
What time of year are tides lowest?
What time of year are tides lowest?
Tides are lowest at the new moon and highest at the full moon.