High & Low Tides

When the sea level rises to its highest point, we call that high tide. When it falls to its lowest point, that’s called low tide.

“If you die, I die.” says Earth (lifespaceandthelot.com)
What Causes Tides?

By Vigdis HockenKonstantin Bikos, and Graham Jones
Ocean tides are caused by the Moon’s gravitational pull. But why does the water also rise on the side of Earth that faces away from the Moon?

Illustration showing how the gravitational force of the Sun and Moon act together and create spring tides at New Moon and Full Moon.
The oceans bulge. (Not to scale.)
©timeanddate.com

Moon Plays the Biggest Role
While both the Moon and the Sun influence the ocean tides, the Moon plays the biggest role. Although the Sun’s gravitational pull on the Earth is 178 times stronger than the Moon’s, the tidal bulges it causes are much smaller.
This is because, contrary to common belief, tides are not caused by the gravitational forces of the Moon or the Sun lifting up the oceans—their gravitational pull is much too weak for that. Rather, tides are created because the strength and direction of the gravitational pull varies depending on where on Earth you are. This variation creates the differential forces or tidal forces that in turn cause tides.
The tidal forces of the Moon are much stronger than the Sun’s because it is so much closer to our planet, causing a much greater variation in the gravitational force from one location to another. The Sun’s gravitational force, on the other hand, varies much less because the Sun is so far away.
The Moon: Our natural satellite
The Sun: Our home star

The Oceans Bulge
The overall effect of these tidal forces is to “squeeze” the oceans, and produce two tidal bulges on opposite sides of the Earth—one facing the Moon and a slightly smaller one facing away from the Moon (see illustration). Due to Earth’s rotation, the two bulges act like two expansive “waves” continuously undulating around our planet.
Topography Causes Variation
Mid-ocean, each tidal “wave” is just under a meter high, compared to the water level of the two troughs between them. However, the variation between high and low tide is very different from place to place. It can range from almost no difference to over 16 meters (over 50 feet).
This is because the water in the oceans is constrained by the shape and distance between the continents as well as varying ocean depths. As a result, the tides behave more like water sloshing around in an oddly shaped bathtub than in a smooth and even basin. In some places, the water flows freely and quickly, while in other areas, where the water has to pass through narrow channels, it moves more slowly.
Sleep, crime, and menstruation: how the Moon affects humans

image.png
High and Low Nearly Twice a Day
Tides are one of the most reliable phenomena in the world, and we know that they move in and out around twice a day, but not exactly. So, why is that?
A day on Earth is the time it takes our planet to spin once around its own axis in relation to the Sun. This is known as a solar day, and it lasts around 24 hours.
However, the time it takes Earth to reach the same position in relation to the Moon is, on average, 24 hours and 50 minutes, known as a lunar day. The reason the lunar day is longer than a solar day is that the Moon revolves around Earth in the same direction as Earth rotates around its axis, so it takes Earth, on average, an additional 50 minutes to “catch up” to the Moon.
Because the tidal force of the Moon is more than twice as strong as the Sun’s, the tides follow the lunar day, not the solar day. It takes half a lunar day, on average 12 hours and 25 minutes, from one high tide to the next, so we have high and low tides nearly twice a day.
According to the National Ocean Service, there are some exceptions to the main rule of two tides every lunar day. Along the coastline of the Gulf of Mexico, there is only one tide per day due to the local shoreline topography, among other things. This tidal cycle is called a diurnal cycle, as opposed to the normal semidiurnal cycle, where diurnal means daily and semi means half.

Continents Affect Tidal Lag
While in theory, the tidal bulges follow the Moon’s position on its orbit around the Earth, the depth and shape of the ocean and the distance between continents are also important in determining when the tide rolls in and out. The time that passes between the passage of the Moon and the onset of the high tide is called the tidal lag.
In the Southern Ocean, where tidal bulges can move relatively freely, the tidal lag may be around two hours. On the other hand, the tidal lag in the North Sea—a part of the Atlantic Ocean bounded by continental Europe and the British Isles—can be about two days.

image.png
The Sun has its own gravity, which can also affect the tides.

Image: Adobe Stock  
Gradual Ebb and Flow
The change from low to high tide is known as flood tide, while the change from high to low tide is called ebb tide. The technical term for the difference in water level between high tide and low tide is tidal range.
The flow and ebb are gradual, so it is not accurate to say that a high or low tide lasts around 6 hours and 12 minutes, i.e. a quarter of a lunar day. The speed of the water flow varies during this period, and it also varies from place to place.
The Rule of 12ths
People who have to consider the tides in their daily life, like sailors, fishers, and surfers, often use what is called the rule of 12ths to calculate the expected water level.

Illustration showing how the water levels changes between high and low tide according to the rule of 12ths.
The water level changes gradually.

This rule states that in the 1st hour after low tide the water level will rise by 1/12 of the predicted tidal range in any given area. In the 2nd hour, it will rise 2/12, and in the 3rd hour, it will rise 3/12. In the 4th hour, it will also rise 3/12, in the 5th, it will rise 2/12, and in the 6th hour, it will rise 1/12.
The sequence to remember is 1-2-3-3-2-1.
So, let’s say the predicted tidal range is 12 feet. In the 1st hour, the tide would rise 1 foot. In the 2nd hour, it would rise 2 feet. In the 3rd and 4th hours, it would rise 3 feet. In the 5th hour, the tide would rise 2 feet, and in the 6th hour, 1 foot.

Storm Tides and Surge
The astronomical forces that drive the tides can be predicted very accurately, and these predictions are published in local tidal tables. However, different weather conditions also affect the sea level and may cause both lower and higher tides than expected. If there is a storm, the seawater level often increases. This is called a storm tide and is caused by a combination of storm surge and normal tidal movement.
Strong offshore winds can move water away from coastlines, exaggerating the low tide. At the same time, onshore winds may cause the water to pile up onto the shoreline, making the low tide higher than usual.
High-pressure weather systems can lead to days with exceptionally low tides. In contrast, low-pressure systems may contribute to causing much higher tides than predicted.

Average and Extreme Tides
The average tidal range in mid-ocean is around 1 meter or 3 feet. However, in some coastal areas, the tidal range can be more than 10 times higher in the most extreme regions. To give an average for tidal range along the world’s coastlines doesn’t make much sense, as they vary so much from place to place.

Small boats moored at low tide in the fishing port in Brixham, Devon, UK
Boats stranded at low tide in Devon, UK.
©iStockphoto.com/Gary Perkin

The world’s highest tide is in the Bay of Fundy in Canada, where the difference between low and high tide can be up to 16.3 meters (53.5 feet). The highest tides in the US can reach 12.2 meters (40 feet) near Anchorage, Alaska. Along the coast of the UK, the tidal range varies from as little as 0.5 meters (1.6 feet) to a maximum of 15 meters (50 feet).
Spring Tides
The Moon phase also plays a part in the tidal range. The greatest difference between high and low tide is around New Moon and Full Moon. During these Moon phases, the solar tide coincides with the lunar tide because the Sun and the Moon are aligned with Earth, and their gravitational forces combine to pull the ocean’s water in the same direction. These tides are known as spring tides or king tides. The name has nothing to do with the season spring, but rather it is a synonym for jump or leap.
An equinoctial spring tide is a spring tide that coincides with either the March equinox or the September equinox, when the Sun is directly above the Earth’s equator. These spring tides usually have an even greater tidal range.
Moon phases in your city

Perigean and Apogean Spring Tides
Several times a year, the Full Moon or New Moon happens as the Moon is around its closest point to Earth, called perigee. This is popularly known as a Supermoon and leads to even larger variation between high and low tides, known as perigean spring tides. However, the difference from a normal spring tide is only around 5 cm or 2 inches.
The opposite happens when the Full or New Moon is around its farthest from Earth, apogee, also known as Micromoon. The apogean spring tides are around 5 cm (2 inches) smaller than regular spring tides.

The tidal range is smallest at the 2 Quarter Moons.
Neap tides at Quarter Moon. (Not to scale.)
©timeanddate.com

Neap Tides
The tidal range is smallest around the Quarter Moons /Half Moons because the gravitational force from the Moon and the Sun counteract each other at these 2 points of the lunar month. These tides are called neap tides or neaps, from Anglo-Saxon, meaning without the power. Neaps always occur about 7 days after spring tides.
Oceans and Some Rivers
There is a difference between having noticeable tides and having true tides. For tides to be noticeable, the body of water has to be huge, like an ocean. Even though true tides also occur in smaller water basins, like big lakes, the tidal variations here are too small to notice.
For example, in the Great Lakes in the US, the largest tidal range is less than 5 cm or just under 2 inches. Different weather conditions, such as wind and barometric pressure, creates bigger differences in the water level than tides on these lakes. This is also the case in the Baltic Sea, the Black Sea, the Caspian Sea, and even the Mediterranean.
Many rivers connecting to the ocean do have high and low tides. In some of these tidal rivers, the water drains away almost entirely at low tide, making it possible to walk across the bottom of the river. If a part of a larger river is affected by the tides, the section affected is known as tidal reach.
A person walking on the exposed riverbed at low tide in the river Malta.
Low tide in the river Malta, India.
©iStockphoto.com/zatletic

In a few areas, where the tide comes into a narrow bay or river, tidal bores can form. Created by the incoming tide, tidal bores are waves which travel against the direction of the water current.
Tides in the Human Body?
Many people believe that the Moon’s gravitational force also affects humans, as our bodies are made up of approximately 70% fluid. However, there is no scientific evidence supporting this belief. Compared to the Earth’s oceans, the human body is far too small and contains far too little liquid to experience tides caused by the Moon in any meaningful way. Topics: MoonEarthSunAstronomy

The Conversation is asking kids to send in questions they’d like an expert to answer. Lachie from Melbourne wants to know how the Moon, being so far away, affects the tides on Earth. An expert explains.
The short answer is that the Moon’s gravity pulls the oceans (and us) towards it. Even though the Moon is so far away, it is large enough that its force of gravity is strong enough to do that.
But before we get into how the Moon affects tides, let’s look at what tides are.
Tides are the rise and fall of water level in the oceans (and lakes, and even in your cup of water, but they’re very small).
When the sea level rises to its highest point, we call that high tide. When it falls to its lowest point, that’s called low tide.
The rise and fall of the tides is known as the tide cycle. If there’s one high tide and one low tide a day, like you would see if you went on holiday to Perth, it’s called a diurnal tide cycle. If there are two high tides and two low tides, like you see in Victoria, it’s called a semi-diurnal tide cycle.
The Moon has the most effect on the tides, but it’s not the only factor that affects them. The Sun and the Earth can also affect the tides. We’ll start with the Moon.

image.png
(631) How the moon affects Earth’s tides – YouTube

Tides and the Moon
The Moon affects the tides because of gravity. You will have noticed that every time you jump, you always land back on the ground. This is because the Earth’s gravity is pulling you back down.

The Earth’s spinning means that another high tide occurs on the opposite side of the Earth to the Moon.
Image: Adobe Stock
The Moon has gravity of its own, which pulls the oceans (and us) towards it.
The Moon’s gravitational pull on us is much weaker than Earth’s, so we don’t really notice it, but we can see the Moon’s effect on the liquid water of the oceans.
The oceans are pulled towards the Moon’s gravity slightly, causing a bulge or high tide on the side of the Earth closest to the Moon.

The Earth’s effect
If the Moon causes a high tide on one side of the Earth, what causes the high tide on the other side?
The Earth is spinning, which is why we have night and day. The Earth’s spinning means that another high tide occurs on the opposite side of the Earth to the Moon.
These two high tides draw water away from the rest of the oceans, causing two low tides between the high tides.
(631) Why do we have tides? – Forces of Nature with Brian Cox: Episode 2 – BBC One – YouTube

Professor Brian Cox explains why we have tides.
The Sun
The Sun, just like the Moon and the Earth, also has its own gravity that can affect the tides.
Although the Sun is much larger than the Moon and has more gravity, it’s also much further away, meaning its pull on the tides is less than half as strong as the Moon’s.
It still does have an effect, though. When the Sun and Moon are in line with the Earth (when a full moon or new moon occur), their combined gravity causes very high tides (and very low tides), known as “spring tides”.
When the Sun and Moon are at right angles to each other (during a waxing or waning moon), the Sun helps to cancel out the pull of gravity from the Moon, causing lower high tides and higher than average low tides, known as “neap tides”.
Help us spread climate facts

The Conversation covers the facts about climate change Environment + Energy – Views & Research – all the time, not just during global conferences. We work with climate scientists to explain their research to the public, and we let anyone read or publish these articles for free. Readers like you enable us to do this important work. 
Effects of tides on the earth and the moon – YouTube

What does the tides looks like – Bing video
What If The Moon Were 10x Bigger? | Unveiled – Bing video


The Seven Social Sins are:

Wealth without work.
Pleasure without conscience.
Knowledge without character.
Commerce without morality.
Science without humanity.
Worship without sacrifice.
Politics without principle.

This entry was posted in Uncategorized. Bookmark the permalink.

Leave a Reply

Your email address will not be published. Required fields are marked *

Time limit is exhausted. Please reload the CAPTCHA.