Guide to the Citadel of Machu Picchu Peru
You will then need to get from Cusco to the city of Ollantaytambo. Ollantaytambo is some 37 miles (60 kilometers) northwest of Cusco. That is about a 1 to 4 hour journey depending on what mode of transportation you choose and how often you stop to take in the wonders of the Sacred Valley of the Incas. There are many means by which to get there. You can go by bus, taxi, tour bus, or train. You can even walk the Inca trail if you are so inclined. All along the way there are ruins and vistas that are worth seeing. However, in the case of ruins, you will probably be happy to view them from afar because in all cases there will be a fee to enter and it will be quite the hike to get up to them. The altitude, steep climb, and time tends to be a deterrent from actually exploring many of them.
Vista and ruins scenery while traveling through the Sacred Valley of the Incas on the way to Ollantaytambo.
Ollantaytambo is a small quaint town with a lot of color and history. It lies in the Sacred Valley of the Incas in the Southern Sierra region of Peru at an altitude of 9,160 ft (2,792 m). This is where the Incas retreated after the Spanish took Cusco.
Much of the town is laid out in the same way as it was in Inca times. It is not modern by any means. It appears to be newer stone structures built atop very old stone foundations. You will want to spend at least one night here - possibly two. Again, Trip Advisor is one of several good website's to use to find a hostel. Mid-priced rooms will be small and primitive but clean and comfortable. Forget having a TV or screaming-fast internet in your room - it isn't going to happen. Just be thankful for hot water or a private bathroom. But, you should get a free breakfast at the upper end hostels and the ones where I have stayed had have been adequate. Be sure to check when you book your room to be sure about breakfast, private bath, and hot water. It is a short walk to the center of town from just about anywhere and there is food, shopping, and many sights to see. There is a strong police presence and I have met groups of women (2 or more) who felt safe walking from their hostel to one of the upstairs restaurants near the center of town to have a snack and a beer or two after dark. This is very much a tourist town where you will meet people from all over the world. Many of the walkways to and from the hostels are lit at night. This is where you might want to try eating llama or alpaca but almost all of the restaurants serve pizza - Peruvian style. There are several ruins all around the city that can be visited for a small admission fee but walking up to them can be exhausting. There are motorized rickshaws that will take you from one end of town to the other for a small fare. The train station is a downhill walk from the city center and can be easily navigated in 15 to 20 minutes. However, you may want to take one of the rickshaws from the train station back to your hostel as at this altitude the uphill walk is a bit tough. The center picture on the right is the road that dead ends into the train station.
From Ollantaytambo you must take a 2+ hour train ride to Aguas Calientes. It is a very scenic ride through steep mountain passes where glaciers are visible on several neighbouring mountains.
Aguas Calientes is at an elevation of 6,693 ft (2040 m). It is the seat of the Machupicchu District. Machupicchu lies at the Willkanuta River. It is the closest access point to the historical site of Machu Picchu which is 6 kilometers (3.7 mi) away or about a 1.5 hours walk up a steep mountainside with stone steps. You have to deal with the dust from the buses roaring by every few minutes on a road that switches back and forth all the way to the top, but yes, you can walk. In the city there are many hotels and restaurants for tourists, as well as natural hot baths which gave the town its colloquial Spanish name. The baths were destroyed by floods several years ago, but have been rebuilt.
Once at the Aguas Calientes train station you will walk through the souvenir shopping area, over the bridge, and down to the bus terminal.
Just follow the crowd that got off of the train or ask anyone for directions along the way.
There is a small ticket booth where you will purchase tickets to take the bus up to the entrance to the Citadel of Machu Picchu. They are open daily. No prior reservation is required. The rate will be around $24 for an adult, children are less. This will get you up to the entrance of Machu Picchu and back to Aguas Calientes after your visit. Everyone purchasing a ticket will need to provide their passport.
Hotel accommodations are available in Aguas Calientes but dragging you luggage to and from Aguas Calientes via the train is not worth it unless you plan to spend a few days in Aguas Calientes. You can easily arrive in Aguas Calientes in the morning, see Machu Picchu, eat, and shop all in one day - returning to Ollantaytambo via the train in the evening.
Well, you have finally arrived at the purpose of your trip to visit the Citadel of Machu Picchu. The bus will drop you off right at the entrance to Machu Picchu. Note: umbrellas are not allowed inside Machu Picchu. Wear a hat and have a poncho available incase it rains. The elevation of Machu Picchu is 7,972 ft (2430 m). Walking up the steep pathways can be difficult and slippery when wet. Go slow and be alert. Falling down one of these steep rock stairways could be a real problem. Take short breaks along the way to catch your breath and rest your muscles.
Most archaeologists believe that Machu Picchu was built as an estate for the Inca emperor Pachacuti from about 1438 to 1472. Often mistakenly referred to as the "Lost City of the Incas", it is the most familiar icon of Inca civilization. They think the Incas abandoned the citadel around the time of the Spanish Conquest. Although known locally, it was apparently not known to the Spanish during the colonial period and remained unknown to the outside world until American historian Hiram Bingham brought it to international attention in 1911.
This is what Machy Picchu looked like when it was discovered in 1911.
Machu Picchu was built in the classical Inca style, with polished dry-stone walls. Its three primary structures are the Inti Watana, the Temple of the Sun, and the Room of the Three Windows. Most of the outlying buildings have been reconstructed in order to give tourists a better idea of how they originally appeared. You can see stones stacked in the left side of the picture above. These are stones periodically brought to the site by truck and are then used in the reconstruction effort. By 1976, thirty percent of Machu Picchu had been restored and restoration continues today.
Because of the steepness of the area, most visitors will take the flat or even down hill route from the entrance to the center of the citadel. I recommend making a left turn and marching up the steps as far as you can go after entering the ruins. This will give you an awesome perspective of the ruins and the rest of your day can be spent traveling down hill into the center of the citadel. This also gets you away from the crowd and provides you with some great photo opportunities without having a crowd of people in front and in back of you.
If you take this route you will end up at the walkway to the Sun Gate (left). This is a 45 minute hike to the Sun Gate and 30 minutes back but is worth seeing the Sun Gate (right) if you have the time and energy to do so.
If you go to see the Sun Gate - great - if not - that's OK too. You will be near the top of the ruins and will have a great panoramic view of the citadel. You can then begin working your way down to the center of the citadel.
I highly recommend you traverse your way to the Temple area located to the left of center of the citadel. Here you will find the Main Temple, Temple of the Three Windows, House of the High Priest, and the Temple of the Moon. This is all in one area and worth seeing. As you can see in the pictures, the stone construction in this area differs from all of the other rock structures at the site. Very large multi-ton stones have been fitted precisely together. You also see similar stone work in the old foundations of Ollantaytambo and Aguas Calientes. I cannot explain these obvious anomalies. I don't think anyone else can either.
From here you can traverse toward the exit without having to travel too far back up hill.
A note about tours and guides. These people derive their living from selling package tours where you are taken to various places of interest by way of a bus - often a crowded bus. You go where they take you and the price is often expensive. If you like this sort of thing, there are many tours available that can be purchased online. All over Cusco you will find tour businesses where tours of varying degrees can be booked. Your taxi driver from the airport will be happy to accommodate you and sell you one of several package deals. These range from tours of Cusco to tours of the Sacred Valley and transportation to Ollantaytambo. Any hotel in Cusco will be able to direct you to several outlets for guided tours. However, I find these tours to be more annoying than helpful. You can see the things you should see and spend the amount of time where you want to spend your time for a lot less money. I prefer to see the sights I want to see at my own pace as opposed to leaving it up to some tour. I think there is a better way and I explain this in detail in the guide to Machu Picchu below.
Now that you are done with seeing Machu Picchu, you will take the bus back down the mountain to Aguas Calientes. If you planned your time correctly, you will have some time to rest, relax, have some lunch, check out the sights, and do some shopping before your train leaves to take you back to Ollantaytambo. The food at all of the cafes adjacent to the river is really quite good and at a fair price. I have eaten at several and have yet to be disappointed.
Do not be alarmed by the black hairless dogs you will see roaming the streets. You will see them in both Aguas Calientes and Ollantaytambo. They are the national dog of Peru and fairly common throughout Peru.
You will arrive in Ollantaytambo in the late afternoon or after dark so you will want to spend another night and return to Cusco the following day.
It is quite the journey and there are many ways to experience it. Everything from walking via a guided tour that takes a week or more to using a tour guide agency to trying to figure it out yourself to doing it the way I suggest are all available. I am writing this for the individuals who want to see everything, want to know what to stop for, and want to know what to avoid. I tell you where to get tickets and how flexible - or not - they are. I provide you with names and phone numbers of people who will actually help you get there comfortably, safely, and economically. The good news is that they are not part of some tourist agency designed to liberate you of your money. I refer you to a trustworthy taxi and awesome yet reasonable hotel accommodations. I have created the web page below just for you. You can refer to it when you are in country. My experiences will save you not only money but headache and pain while traveling to Machu Picchu.
Guide to Machu Picchu
Good journey my friend!
More adventures from Frank and Mark:
Now let me blow your mind!
Try to wrap your head around this.
At the equator the earth spins at 1000 miles per hour = 1609 kilometers per hour.
The earth rotates around the sun at about 67,000 miles per hour = 107,826 kilometers per hour.
The sun is rotating around the galaxy at about 559,000 miles per hour (250 km/s according to Vera Rubin, the lady who discovered this in the 1970's). In fact, the majority of the suns in all galaxies rotate around their respective black hole very close to this same speed. One would expect the rotation to be much like our solar system where the outer planets rotate slower and the inner planets rotate faster. Not so for the stars in a galaxy. Stars, at many varying distances from the black hole at the galaxy center, are all rotating at the same speed. This results in the pinwheel shapes common to most galaxies. No one really knows exactly why this is. It is being explained as the result of dark matter.
Our galaxy, along with the local group of galaxies, is moving through space at about 1,340,000 miles per hour = 2,156,521 kilometers per hour.
Astronomers speculate that space is expanding at about 152,112 miles per hour = 244,801 kilometers per hour.
Add it all up and we are traveling through space at more than 2,000,000 miles per hour = 3,218,688 kilometers per hour. Other estimates say upwards of 2.8 million miles per hour = 4.5 million kilometers per hour. That is somewhere between 550 and 800 miles per second = 1,288 kilometers per second. At that speed you could travel from the earth to the moon, 238,900 miles away, in under 6 minutes. In any case, it is fast - damn fast.
It's hard to imagine traveling that fast. It's impossible to relate to these speeds especially when we feel like we are standing still in space.
As a comparison, the speed of light is 6.706e+8 mph or 670,600,000 miles per hour which is about 671 million miles per hour or about 186,000 miles per second ~ 300,000 kilometers per second.
That is about 300 times faster than we are traveling through space.
Something I should also mention is that in addition to moving through space at such an extreme speed, our sun with the planets moves up and down through the plane of our galaxy like a merry go round while traveling around the galaxy.
This merry go round up and down oscillation is on a 60,000 year cycle. So, this up and down movement through the plane of the Milky Way Galaxy takes us into areas of our galaxy that may be less desirable than others. It could take us through debris clouds or near magnetars or black holes that could cause havoc in various catastrophic ways for the earth.
Did you know?
The universe has more platinum atoms than silver atoms? Platinum is the pricier metal because on earth it is much rarer than silver because billions of years ago much of the platinum and gold sank out of the earth's crust and into its core. There is an estimated 6 times more platinum than gold in the earth's core.
Why Is Earth's Weather Changing?
Now let's look at the Earth's path through space and how it affects the weather. Global warming or cooling - absolutely. Manmade - a little but nothing like earth itself. No doubt humankind is contributing to weather change, but the earth's orbit will override and exceed anything man will do.
Why you ask?
The Earth's rotational axis is tilted slightly at 23.5 degrees. The Earth's axis rotates around this circle once every 20,000 years.
The north star today is Polaris, however, 5 thousand years ago it was a different star altogether (Theban) and thousands of years from now it will be Vega. Today the orientation is the northern hemisphere is leaning away from the sun. This position is why the Sarah Desert is a desert where it was more tropical, wet, and green 15,000 years ago.
The Earth's orbit around the sun is also not constant and varies widely over time. Today the Earth's orbit around the sum is almost circular so summers and winters are mild. However, due to influences from the Sun and moon, Earth's orbit can go slightly elliptical. The cycle between elliptical and circular is 100,000 years. The effect of this orbital change will be hotter summers and colder winters.
Jupiter and Mars have an even bigger effect on Earth's orbit where a 405,000 year cycle takes the Earth's orbit on an extremely elliptical orbit. This orbit is thought to have been responsible for snowball earth several times in Earth's past.
Yes, Earth's climate is changing, and it is going to change way more dramatically than any of us can imagine. All these orbital changes have happened several times in the past and will happen again many more times in the future. 20,000 years from now there will be vast changes where the Sarah Desert will be green again. But these changes will be the result of the Earth's orbit around the Sun and will probably have little to do with human evolution.
Another event not often associated with weather disturbances is the occasional flip of earth's magnetic field known as geomagnetic reversal. Earth's magnetic poles are not static. The magnetic poles wander and occasionally reverse around every 200,000 to 300,000 years. The Earth's magnetic field has reversed nine times during the past four million years.
The last known complete 180-degree magnetic pole shift last happened 42,000 years ago and took approximately 1000 years to complete the shift. As of late, Earth's magnetic North pole has wandered considerably on a path toward northern Russia. Scientists know that Earth's magnetic field has weakened about 9% in the past 170 years. The magnetic North pole has also been drifting more rapidly since the 1990s, at a rate of 30 to 40 miles per year.
The pole shift 42,000 years ago is suspected to have contributed to the demise of Neanderthal’s. While the poles were shifting, additional cosmic rays and high-energy particles from outer space would have depleted ozone concentrations, opening the floodgates for more ultraviolet radiation in the atmosphere over a long period of time. Shifting weather would have expanded the ice sheet over North America and dried out Australia, prompting the extinction of many large mammal species. Solar storms, meanwhile, might have driven ancient humans to seek shelter in caves. As competition for resources grew, our closest extinct human relative, Neanderthals, may have died out.
Problems in the near term.
As the moon orbits the earth the two celestial bodies that affect it the most are the earth and the sun. They line up in ways that influence how gravity acts on the earth. The phenomenon is what causes ocean tides to wax and wane. This gravitational pull differs from year to year.
To us, the moon appears to “wobble” in space. This is due to the tilt, velocity and shape of the moon's orbit which takes 18.6 years to complete. Half of the cycle suppresses tide activity by making high tides lower than normal and low tides higher than normal.
But the other half exacerbates them. Therein lies the problem.
According to NASA. the moon is currently in the “tide-amplifying part of its cycle”. By mid-2030, when this intensified series returns, people living in coastal cities may be dealing with severe floods “every day or two.”
Why you ask?
This natural yet amplified lunar cycle will be coupled with higher sea levels caused by global warming, triggering a decade of dramatic surges in the number of days with high-tide flooding on nearly all mainland coastlines in the world.
High-tide flooding is projected to exceed thresholds across the world more often and occur in clusters that last a month or longer, the NASA Sea Level Change Science Team of the University of Hawaii said. Their study was published last month in the journal Nature Climate Change.
These kinds of floods are already plaguing many cities on the Atlantic and Gulf coasts. In 2019, the National Oceanic and Atmospheric Administration reported more than 600 such floods, which occur when high tides reach about 2 feet above the daily average “and start spilling onto streets or bubbling up from storm drains.”
The problem, researchers say, is that these events are often considered less important or damaging than floods caused by hurricanes, for example, because they involve smaller amounts of water.
But “it’s the accumulated effect over time that will have an impact,” study lead author Phil Thompson, an assistant professor at the University of Hawaii, said in a statement. “If it floods 10 or 15 times a month, a business can’t keep operating with its parking lot under water. People lose their jobs because they can’t get to work. Seeping cesspools become a public health issue.”
What’s more, these repeated events will eventually occur in clusters in about a decade when the moon’s amplified wobble merges with future higher seas, the team says. The dangerous cocktail is predicted to spark increased high-tide flooding over a short period of time, creating extreme months of activity.
The bottom line - the world is headed for coastal flooding without rising sea levels. With rising sea levels coastal catastrophe is eminent.
We know greenhouse gases can change the climate based on multiple lines of scientific evidence point to the increase in greenhouse emissions over the past century and a half as a driver of long-term climate change around the world. Laboratory measurements since the 1800s have repeatedly verified and quantified the absorptive properties of carbon dioxide that allow it to trap heat in the atmosphere. Simple models based on the warming impact of carbon dioxide in the atmosphere match historical changes in temperature. Complex climate models, recently acknowledged in the Nobel Prize for Physics, not only indicate a warming of the Earth due to increases in carbon dioxide but also offer details of the areas of greatest warming. Long-term records from ice cores, tree rings and corals show that when carbon dioxide levels have been high, temperatures have also been high. The chart below shows the change in temperature vs CO2 levels over time. It is an obvious correlation.
But there is more to our travels through space than drastic changes in the weather.
Mass extinctions of life on Earth appear to also follow regular patterns based on our solar system traveling up and down in relation to the galactic plane.
Widespread die-offs of land dwelling animals - which include amphibians, reptiles, mammals, and birds - follow a cycle of about 27 million years.
Additionally, these mass extinctions coincide with major asteroid impacts and devastating volcanic outpourings of lava, rock, and a lethal amounts of deadly gases poisoning the atmosphere.
Global mass extinctions are presumably caused by the largest cataclysmic impacts and massive volcanism, perhaps sometimes working in concert.
Paleontologists had previously discovered that similar mass extinctions of marine life, in which up to 90% of species disappeared, were not random events, but seemed to come in a 26 to 27 million year cycle.
These new findings of coinciding, sudden mass extinctions on land and in the oceans, and of the common 26 / 27 million year cycle, lend credence to the idea of periodic global catastrophic events as the triggers for the extinctions.
Three of the mass annihilations of species on land and in the sea are already known to have occurred at the same times as the three largest impacts of the last 250 million years, each capable of causing a global disaster and resulting mass extinctions.
These impacts can create conditions that would stress and potentially kill off land and marine life, including widespread dark and cold, wildfires, acid rain and ozone depletion. The most infamous asteroid strike we know of is the one that killed off the dinosaurs some 66 million years ago, which overall wiped out 70% of the species on Earth.
It seems that large-body impacts and the pulses of internal Earth activity that create flood-basalt volcanism may be marching to the same 26 / 27 million year drumbeat as the extinctions, more than likely paced by our orbit in the galaxy.
And as for where we are in the current cycle, we are about 20 million years away from the next predicted mass extinction that's due to a comet strike or volcanic activity.
How could this be? Aren't asteroid or comet impacts completely random? Not so. Because our sun with the planets travels up and down through the plane of our galaxy like a merry go round while traveling around the galaxy, our planet will pass through a crowded part of our Milky Way galaxy about every 26 / 27 million years. During those times, comet and meteor showers are more likely, leading to large impacts on the Earth.
The above study was published 12/11/2020 in the journal Historical Biology.
BUT WAIT - THERE'S MORE
Mark has had a theory for a very long time. We know from Albert Einstein that time and space are relative and therefore are not constant. Affecting one affects and changes the other. Gravity warps space and also time. Speed also warps time. Time runs slower wherever gravity is strongest. This is because gravity curves space-time. Also, the faster the relative velocity between two people or places, the greater the time dilation between one another.
They say this rate of time diminishes to zero as one approaches the speed of light. This effect is not linear. It is exponential like the Mohs hardness scale or the Richter earthquake scale.
For sufficiently high speeds, near the speed of light, this effect is dramatic.
For example, a persons perceived one year of travel near the speed of light might correspond to ten years of time on Earth. That said, our time here on earth is influenced by speed because, as you know, we are traveling through space at somewhere around 2+ million miles per hour. So we can see that our perceived time is slower, about 0.5% slower, than the time of something standing still in space. We also know on earth we are influenced by the gravity of the earth, the sun, and the galaxy we are traveling through space in so our perceived time is also slowed by all that gravitational influence. This effect is also exponential where higher gravitational influence cause the most dramatic effects. Adding up the slowing of our time resulting from our speed and the gravity that is influencing us means that our perceived time is slower than actual time in space without these influences. So, when we look out into the universe, we see the universe not only expanding but speeding up (accelerating) because our time is running slower than what we are looking at. Therefore, Mark doubts that the speed of galaxies in the universe are accelerating away from one another as scientist's have speculated. The universe is expanding, maybe, but not accelerating. Mark has been mulling over this concept for years. Some think this concept has merit and many think it is nuts. What do you think?
One of the newest ways of looking at the expansion of the universe, and a remarkably interesting one indeed, speculates that the galaxies in the universe are all speeding away from one another as a function of their distance from the observer where some galaxies are traveling away from us at more than the speed of light. This is because space in that area of space is expanding at greater speeds the farther something is away. So, a galaxy 4 light years away is traveling away from us 4 times faster than a galaxy 2 light years away. If we were to travel at the speed of light in one direction, there would be galaxies disappearing before our eyes because they are so far away that they are moving away from us faster than the speed of light because, where they are, space is expanding faster than the speed of light. Furthermore, this expansion of space in all directions is going on relative to every other point in space. What makes no sence to me is that to some observer far far away, we should then be expanding faster than the speed of light but we do not see that kind of expansion in our area of space? And, this expansion is supposedly all caused by a substance we can neither see and apparently does not affect us - dark matter and dark energy. Called dark because we have no idea what it is but without it the universe, mass wise, does not work.
Moving on - they say the H0liCOW estimate puts the Hubble constant at about 71.9 kilometers (44.7 miles) per second per megaparsec (one megaparsec equals about 3.3 million light-years). In 2001, Dr. Wendy Freedman determined space to expand at 72 kilometers per second per megaparsec - roughly 3.3 million light years - meaning that for every 3.3 million light years further away from the earth you are, the matter where you are, is moving away from earth 72 kilometers a second faster. In 2015, another team, using observations of the cosmic microwave background, determined the rate was 67.8 kilometers per second per megaparsec. Time dilation in a gravitational field is equal to time dilation in far space, due to a speed that is needed to escape that gravitational field.
Here is the proof: