Loading...
Everything can be Automated
QuizĀ by Yolande Samuels-Cole
Customize this quiz to suit your class
Instantly translate to 100+ languages
Tag the questions with any skills you have. Your dashboard will track each student's mastery of each skill.
Give this quiz to my class
The story of The Resurrection of Jesus is very amazing. Resurrection: meaning Jesus rising from the dead. Jesus is alive again. Jesus proved to the people that He is the āSon of Godā. Would you like to know the amazing story? Letās read on! Jesus is Alive! After Jesus died a man named Joseph from Arimathea put Jesus in His tomb. Before Joseph left, he and some men rolled a large heavy stone in front of the tomb. Mary and Mary Magdalene made spices and oils as a sign of respect to Jesus, and went very early to the tomb on the third day to go see Jesus' body. As they were just about at the tomb the earth suddenly shook and an angel came down from heaven. He easily rolled away the stone at the entrance of the tomb and sat on top of it. The women looked at each other and rubbed their eyes, they couldn't believe what they had seen. The angel was so bright, almost as bright as lightning. His clothes were as white as snow. There had been guards watching the tomb so no one would steal Jesus' body. When they saw the angel they fell over and they couldn't move or speak because they were so afraid. Christian Living Education 2 SEIBO COLLEGE 5 Then the angel said to the women, "Do not be afraid. I know you are looking for Jesus who has died. But He isn't here; He has risen just as He said He would! Come and see for yourself, the tomb is empty." The women were confused. How could this happen? They were sure Jesus had died, and now He was alive? They looked in the tomb and the cloths Jesus was wrapped in were lying on the ground, and the tomb was empty. Then the angel spoke again, "If you want to find Jesus He's on his way to Galilee." So the women hurried away. They had been so sad that Jesus was dead and now they were so excited He was alive! They just knew they had to find Jesus, and they had to tell the disciples the good news. As they were running down the path they turned a corner, and there was Jesus. "Greetings," He said. The ladies fell at His feet and worshiped him. Then Jesus said to them, "Do not be afraid. Go and tell my disciples to come to Galilee, which is where they will see me." The disciples came to Galilee, and had heard by this time that Jesus was alive. They were sitting around talking about it, when Jesus walked into the room and said to them, "Peace be with you." The disciples immediately stopped talking. Even though they had heard Christian Living Education 2 SEIBO COLLEGE 6 He was alive, they were shocked to see Him standing there with them. Jesus said to them, "Why do you look at me like you've just seen a ghost? Why don't you believe what you're seeing? Look at the scars in my hands and feet. It is really me! Touch me and see, I am not a ghost but a real person." The disciplesā mouths were open in amazement because they still didn't know what to think. They were so full of joy, and yet it was so impossible. Jesus understood what they were thinking, so He said, "This is what I told you would happen, that everything must happen that has already been written in the Bible." Then Jesus told them, "You have seen these things that have happened, so stay in the city and soon I am going to give you what God has promised you, the Holy Spirit. Jesus had one more person to see. His name was Thomas, and he was one of the disciples that werenāt there when Jesus met with them. Thomas had also heard that Jesus was alive, but would not believe until he saw Jesus with his own eyes. A week later when Thomas finally saw Jesus, Jesus said to him, "Put your finger here; see my hands. Stop doubting and believe." But Jesus continued, "Because you have seen me, you have believed; but it is more amazing for those who don't see me, and believe anyway." Christian Living Education 2 SEIBO COLLEGE 7 Jesus is actually talking to us when He said this. If you believe in Him, without seeing Him He thinks you're very special! That is exactly what faith is, believing in God even though you can't see Him. When we become Christians Jesus automatically gives us the Holy Spirit to live inside of us. The Holy Spirit makes us know when we have done something wrong. We might feel sick to our stomach, or just get a bad feeling, that is the Holy Spirit reminding us that we are doing something wrong, or that we need to stop and say sorry and ask for forgiveness for what we've done. Do you know what we celebrate during Easter Sunday? We celebrate the rising of Jesus from the dead. We celebrate because Jesus shared His new life with us. Through His rising from the dead, we are saved. We also have new life. What do you think we should do with our new life? How can we thank Jesus for sharing His new life with us? Of course, we should do good deeds. When we say good deeds, it is anything that we do that is good. It doesnāt matter how big or small as long as it is good. It would make Jesus very happy if we stop our bad ways and change for the betterCreate a multiple choice quiz with the following information: Earthās Sphere Everything on Earth can be placed into one of four major subsystems: land, water, living things, and air. These four subsystems are called "spheres." Specifically, they are the "geosphere" (land), "hydrosphere" (water), "biosphere" (living things), and "atmosphere" (air). Geosphere All the rock, soil and sediments that makeup Earthās land. It comes from the word āGeoā which means āEarth.ā Hydrosphere All the oceans, rivers, lakes and water on Earth. It comes from the word āHydroā which means āwater.ā Atmosphere All the gasses surrounding the earth. It comes from the word āAtmosā which means āair.ā Biosphere All the living things on Earth. It comes from the word āBioā which means ālife.ā Interact act in such a way as to have an effect on another; Freshwater naturally occurring water that is not salty, and is suitable for consumption if clean or processed. Groundwater water held underground in the soil or in pores and crevices in rock Recycling To reuse something that would have otherwise been thrown out or to turn it into something usable again instead of sending it to a landfill. Erosion After pieces of the earth are broken down through weathering, those pieces are moved through Erosion. Erosion is the process of moving things from one place to another. Mushroom Rocks Naturally occurring rocks that look like a mushroom. They can be formed when sand gets carried by wind and hits the rock. This weathers the bottom of the rock more than the top. Dry Ice A solid form of carbon dioxide that is very cold and turns directly from a solid to a gas.āThereās No Such Thing as Sound Scienceā by By Christie Aschwanden was a lead science writer for FiveThirtyEight. FiveThirtyEight, Science, Dec. 6, 2017 Science is being turned against itself. For decades, its twin ideals of transparency and rigor have been weaponized by those who disagree with results produced by the scientific method. Under the Trump administration, that fight has ramped up again. In a move ostensibly meant to reduce conflicts of interest, Environmental Protection Agency Administrator Scott Pruitt has removed a number of scientists from advisory panels and replaced some of them with representatives from industries that the agency regulates. Like many in the Trump administration, Pruitt has also cast doubt on the reliability of climate science. For instance, in an interview with CNBC, Pruitt said that āmeasuring with precision human activity on the climate is something very challenging to do.ā Similarly, Trumpās pick to head NASA, an agency that oversees a large portion the nationās climate research, has insisted that research into human influence on climate lacks certainty, and he falsely claimed that āglobal temperatures stopped rising 10 years ago.ā Kathleen Hartnett White, Trumpās nominee to head the White House Council on Environmental Quality, said in a Senate hearing last month that she thinks we āneed to have more precise explanations of the human role and the natural roleā in climate change. The same entreaties crop up again and again: We need to root out conflicts. We need more precise evidence. What makes these arguments so powerful is that they sound quite similar to the points raised by proponents of a very different call for change thatās coming from within science. This other movement strives to produce more robust, reproducible findings. Despite having dissimilar goals, the two forces espouse principles that look surprisingly alike: Science needs to be transparent. Results and methods should be openly shared so that outside researchers can independently reproduce and validate them. The methods used to collect and analyze data should be rigorous and clear, and conclusions must be supported by evidence. These are the arguments underlying an āopen scienceā reform movement that was created, in part, as a response to a āreproducibility crisisā that has struck some fields of science.1 But theyāre also used as talking points by politicians who are working to make it more difficult for the EPA and other federal agencies to use science in their regulatory decision-making, under the guise of basing policy on āsound science.ā Scienceās virtues are being wielded against it. What distinguishes the two calls for transparency is intent: Whereas the āopen scienceā movement aims to make science more reliable, reproducible and robust, proponents of āsound scienceā have historically worked to amplify uncertainty, create doubt and undermine scientific discoveries that threaten their interests. āOur criticisms are founded in a confidence in science,ā said Steven Goodman, co-director of the Meta-Research Innovation Center at Stanford and a proponent of open science. āThatās a fundamental difference ā weāre critiquing science to make it better. Others are critiquing it to devalue the approach itself.ā Calls to base public policy on āsound scienceā seem unassailable if you donāt know the termās history. The phrase was adopted by the tobacco industry in the 1990s to counteract mounting evidence linking secondhand smoke to cancer. A 1992 Environmental Protection Agency report identified secondhand smoke as a human carcinogen, and Philip Morris responded by launching an initiative to promote what it called āsound science.ā In an internal memo, Philip Morris vice president of corporate affairs Ellen Merlo wrote that the program was designed to ādiscredit the EPA report,ā āprevent states and cities, as well as businesses from passing smoking bansā and āproactivelyā pass legislation to help their cause. The sound science tactic exploits a fundamental feature of the scientific process: Science does not produce absolute certainty. Contrary to how itās sometimes represented to the public, science is not a magic wand that turns everything it touches to truth. Instead, itās a process of uncertainty reduction, much like a game of 20 Questions. Any given study can rarely answer more than one question at a time, and each study usually raises a bunch of new questions in the process of answering old ones. āScience is a process rather than an answer,ā said psychologist Alison Ledgerwood of the University of California, Davis. Every answer is provisional and subject to change in the face of new evidence. Itās not entirely correct to say that āthis study proves this fact,ā Ledgerwood said. āWe should be talking instead about how science increases or decreases our confidence in something.ā The tobacco industryās brilliant tactic was to turn this baked-in uncertainty against the scientific enterprise itself. While insisting that they merely wanted to ensure that public policy was based on sound science, tobacco companies defined the term in a way that ensured that no science could ever be sound enough. The only sound science was certain science, which is an impossible standard to achieve. āDoubt is our product,ā wrote one employee of the Brown & Williamson tobacco company in a 1969 internal memo. The note went on to say that doubt āis the best means of competing with the ābody of factāā and āestablishing a controversy.ā These strategies for undermining inconvenient science were so effective that theyāve served as a sort of playbook for industry interests ever since, said Stanford University science historian Robert Proctor. The sound science push is no longer just Philip Morris sowing doubt about the links between cigarettes and cancer. Itās also a 1998 action plan by the American Petroleum Institute, Chevron and Exxon Mobil to āinstall uncertaintyā about the link between greenhouse gas emissions and climate change. Itās industry-funded groupsā late-1990s effort to question the science the EPA was using to set fine-particle-pollution air-quality standards that the industry didnāt want. And then there was the more recent effort by Dow Chemical to insist on more scientific certainty before banning a pesticide that the EPAās scientists had deemed risky to children. Now comes a move by the Trump administrationās EPA to repeal a 2015 rule on wetlands protection by disregarding particular studies. (To name just a few examples.) Doubt merchants arenāt pushing for knowledge, theyāre practicing what Proctor has dubbed āagnogenesisā ā the intentional manufacture of ignorance. This ignorance isnāt simply the absence of knowing something; itās a lack of comprehension deliberately created by agents who donāt want you to know, Proctor said.2 In the hands of doubt-makers, transparency becomes a rhetorical move. āItās really difficult as a scientist or policy maker to make a stand against transparency and openness, because well, who would be against it?ā said Karen Levy, researcher on information science at Cornell University. But at the same time, āyou can couch everything in the language of transparency and it becomes a powerful weapon.ā For instance, when the EPA was preparing to set new limits on particulate pollution in the 1990s, industry groups pushed back against the research and demanded access to primary data (including records that researchers had promised participants would remain confidential) and a reanalysis of the evidence. Their calls succeeded and a new analysis was performed. The reanalysis essentially confirmed the original conclusions, but the process of conducting it delayed the implementation of regulations and cost researchers time and money. Delay is a time-tested strategy. āGridlock is the greatest friend a global warming skeptic has,ā said Marc Morano, a prominent critic of global warming research and the executive director of ClimateDepot.com, in the documentary āMerchants of Doubtā (based on the book by the same name). Moranoās site is a project of the Committee for a Constructive Tomorrow, which has received funding from the oil and gas industry. āWeāre the negative force. Weāre just trying to stop stuff.ā Some of these ploys are getting a fresh boost from Congress. The Data Quality Act (also known as the Information Quality Act) was reportedly written by an industry lobbyist and quietly passed as part of an appropriations bill in 2000. The rule mandates that federal agencies ensure the āquality, objectivity, utility, and integrity of informationā that they disseminate, though it does little to define what these terms mean. The law also provides a mechanism for citizens and groups to challenge information that they deem inaccurate, including science that they disagree with. āIt was passed in this very quiet way with no explicit debate about it ā that should tell you a lot about the real goals,ā Levy said. But whatās most telling about the Data Quality Act is how itās been used, Levy said. A 2004 Washington Post analysis found that in the 20 months following its implementation, the act was repeatedly used by industry groups to push back against proposed regulations and bog down the decision-making process. Instead of deploying transparency as a fundamental principle that applies to all science, these interests have used transparency as a weapon to attack very particular findings that they would like to eradicate. Now Congress is considering another way to legislate how science is used. The Honest Act, a bill sponsored by Rep. Lamar Smith of Texas,3 is another example of what Levy calls a āTrojan horseā law that uses the language of transparency as a cover to achieve other political goals. Smithās legislation would severely limit the kind of evidence the EPA could use for decision-making. Only studies whose raw data and computer codes were publicly available would be allowed for consideration. That might sound perfectly reasonable, and in many cases it is, Goodman said. But sometimes there are good reasons why researchers canāt conform to these rules, like when the data contains confidential or sensitive medical information.4 Critics, which include more than a dozen scientific organizations, argue that, in practice, the rules would prevent many studies from being considered in EPA reviews.5 It might seem like an easy task to sort good science from bad, but in reality itās not so simple. āThereās a misplaced idea that we can definitively distinguish the good from the not-good science, but itās all a matter of degree,ā said Brian Nosek, executive director of the Center for Open Science. āThere is no perfect study.ā Requiring regulators to wait until they have (nonexistent) perfect evidence is essentially āa way of saying, āWe donāt want to use evidence for our decision-making,āā Nosek said. Most scientific controversies arenāt about science at all, and once the sides are drawn, more data is unlikely to bring opponents into agreement. Michael Carolan, who researches the sociology of technology and scientific knowledge at Colorado State University, wrote in a 2008 paper about why objective knowledge is not enough to resolve environmental controversies. āWhile these controversies may appear on the surface to rest on disputed questions of fact, beneath often reside differing positions of value; values that can give shape to differing understandings of what āthe factsā are.ā Whatās needed in these cases isnāt more or better science, but mechanisms to bring those hidden values to the forefront of the discussion so that they can be debated transparently. āAs long as we continue down this unabashedly naive road about what science is, and what it is capable of doing, we will continue to fail to reach any sort of meaningful consensus on these matters,ā Carolan writes. The dispute over tobacco was never about the science of cigarettesā link to cancer. It was about whether companies have the right to sell dangerous products and, if so, what obligations they have to the consumers who purchased them. Similarly, the debate over climate change isnāt about whether our planet is heating, but about how much responsibility each country and person bears for stopping it. While researching her book āMerchants of Doubt,ā science historian Naomi Oreskes found that some of the same people who were defending the tobacco industry as scientific experts were also receiving industry money to deny the role of human activity in global warming. What these issues had in common, she realized, was that they all involved the need for government action. āNone of this is about the science. All of this is a political debate about the role of government,ā she said in the documentary. These controversies are really about values, not scientific facts, and acknowledging that would allow us to have more truthful and productive debates. What would that look like in practice? Instead of cherry-picking evidence to support a particular view (and insisting that the science points to a desired action), the various sides could lay out the values they are using to assess the evidence. For instance, in Europe, many decisions are guided by the precautionary principle ā a system that values caution in the face of uncertainty and says that when the risks are unclear, it should be up to industries to show that their products and processes are not harmful, rather than requiring the government to prove that they are harmful before they can be regulated. By contrast, U.S. agencies tend to wait for strong evidence of harm before issuing regulations. Both approaches have critics, but the difference between them comes down to priorities: Is it better to exercise caution at the risk of burdening companies and perhaps the economy, or is it more important to avoid potential economic downsides even if it means that sometimes a harmful product or industrial process goes unregulated? In other words, under what circumstances do we agree to act on a risk? How certain do we need to be that the risk is real, and how many people would need to be at risk, and how costly is it to reduce that risk? Those are moral questions, not scientific ones, and openly discussing and identifying these kinds of judgment calls would lead to a more honest debate. Science matters, and we need to do it as rigorously as possible. But science canāt tell us how risky is too risky to allow products like cigarettes or potentially harmful pesticides to be sold ā those are value judgements that only humans can make.Make a multiple choice quiz for my year 8 science students based on the science in this transcript from a video: 3Ā°C 0:04 It can be the difference between snow and sleet 0:08 Wearing a jacket or not 0:11 In your day-to-day life, it may not seem significant 0:15 But 3Ā°C of global warming would be catastrophic 0:20 Heatwaves, droughts, extreme precipitation, even fire 0:25 3Ā°C of warming is really disastrous 0:28 The scary thing is, the world is well on its way there 0:32 Since the industrial revolution, the Earth has warmed between 1.1Ā°C and 1.3Ā°C 0:40 This is a problem that babies you pass in the street will have to live with 0:46 Children born today... 0:47 ...are up to seven times more likely to face extreme weather than their grandparents 0:52 If global temperatures do rise by 3Ā°C... 0:55 ...what would their world look like? Climate change is already having devastating effects 1:03 Rising sea levels 1:05 Desertification 1:07 Hollywood has always enjoyed imagining the end of the world 1:11 While blockbusters like this are clearly fiction... 1:14 ...this film will show the scenario we all face... 1:17 ...unless more drastic measures are taken to stop burning fossil fuels 1:30 In some parts of the world the effects of inaction are already clear 1:35 The slums of Bangladeshās capital are filling up with climate migrants 1:41 Minara comes from Bhola District, an area in southern Bangladesh 1:46 There, like many other parts of the country... 1:49 ...rivers swollen by heavier rain and melting Himalayan glaciers... 1:53 ...are washing away peopleās homes 1:56 Many, like her, have lost everything 2:00 Our home in Bhola had endless amounts of land 2:03 There was lots of space for farming, we had a spacious house 2:08 There were different types of fruits, vegetation and trees growing at home 2:12 We used to eat the fruit from our own trees 2:18 I canāt eat them now because they don't exist anymore 2:21 Since the river flooded for the third time, I had to flee to Dhaka 2:26 Life was much better back home 2:29 It was unbearable to live through, truly intolerable 2:33 We didnāt have the time to save anything at all 2:38 1.1Ā°C to 1.3Ā°C of global warming has already transformed Minaraās life 2:45 Itās one of the reasons why so many migrants like her... 2:47 ...are moving to the city each year... 2:50 ...nearly 400,000 according to the last estimate 2:53 And climate models show there could be much worse to come How climate modelling works 3:02 Climate scientist Joeri Rogelj... 3:04 ...has spent the last ten years modelling future climate scenarios... 3:08 ...for the United Nations 3:10 The models we use to carry out this exercise... 3:13 ...really represent the state of the art... 3:15 ...of our current knowledge of climate change and where we are heading 3:19 Joeriās projections use data collected by hundreds of scientists around the world 3:26 Here this is the 3Ā°C level... 3:28 ...and so there is at least a one-in-four chance that under current policies... 3:32 ...we would hit 3Ā°C by the end of the century 3:36 This is just one of the scenarios Joeri looks at 3:40 Another one imagines that all policy promises are kept 3:44 The most optimistic assumes that all promises have been kept... 3:47 ...and net-zero targets are met 3:50 Where our best estimate ends up around 2Ā°C at the end of the century... 3:54 ...there is still a one-in-20 chance that we end up with 3Ā°C instead 3:59 One would not be entering a plane if there is a one-in-20 chance... 4:03 ...that the plane will crash Nowhere is safe from global warming 4:07 A rise of 3Ā°C would affect everyone 4:10 Even wealthy cities in rich countries wouldnāt be immune to the consequences 4:15 European capitals like Paris and Berlin... 4:18 ...would bake under more extreme heatwaves 4:22 Frequent storm-surges in New York could turn parts of the city desolate 4:27 In many ways, cities magnify, intensify climate events 4:33 Cities are hotter than the places around them... 4:36 ...they tend to be more vulnerable to flooding 4:39 And you can get a really bad event in a city in a way that you canāt in the countryside 4:46 And because of their denser populations... 4:49 ...disasters in a city affect far more people 4:52 Some cities might be badly prepared for the changes coming 4:56 But they have the means to adapt 4:59 Cities tend to be wealthier than surrounding places 5:03 They have a lot of amenities 5:05 A city that has taken seriously the risks of a 3Ā°C world... 5:08 ā¦wouldnāt necessarily be a worse place to be in a 3Ā°C world 5:12 But a city that hasnāt prepared for these sort of eventualities... 5:16 ...that might be a really nasty place The impact of prolonged droughts 5:20 So far, many developed cities have got off lightly... 5:24 ...but some rural parts of the world are suffering disproportionately 5:29 Smallholdersāsmall-scale farmersāare particularly vulnerable to climate change 5:35 And there are over 600 million around the world 5:38 Smallholders with farms under two hectares... 5:40 ...produce around a third of the global food supply 5:46 Central Americaās āDry Corridorā... 5:48 ...supports a mix of smallholdings and medium-sized farms 5:53 Sandwiched between the Pacific Ocean and the Caribbean Sea... 5:56 ...the area is prone to droughts 6:08 Israel RamĆrez Rivera is a smallholder in Guatemala 6:12 Here, climate change is making the dry seasons longer, and more severe 6:18 This is the biggest ear of maize that this plot could deliver 6:23 He depends on his crops of corn and beans 6:26 But theyāre getting harder to grow 6:30 The surrounding mountains... 6:32 ...used to provide us with native food... 6:38 ...and now that isnāt an option anymore... 6:41 ...due to climate change and its effects 6:46 Nearly two-thirds of the smallholders in the Dry Corridor now live in poverty 6:52 The impact of all of this for us... 6:59 ...malnutrition among children 7:03 Weāve lost a few 7:07 For my crops especially, the midsummer heat is harder than before 7:16 The plant dries up and canāt provide us... 7:19 ...with the necessary food provision 7:24 Severe droughts in Central America... 7:26 ...are now four times more likely than they were last century 7:30 Many families from here have gone to the States 7:37 The economic despair and debts... 7:44 ...have pushed many people from this community to do this journey 7:53 Migration from Guatemala to the United States has quadrupled since 1990 7:59 Not all of this has been due to climate change 8:02 But longer droughts would force even more to move 8:05 In a 3Ā°C world, annual rainfall in this region... 8:09 ...could drop by up to 14% 8:12 At 3Ā°C, over a quarter of the worldās population... 8:16 ...could endure extreme droughts for at least a month of the year 8:19 Northern Africa could see droughts that last for years at a time Rising sea levels, storm surges and flooding 8:24 But for some, too much water will be the problem 8:29 10% of the worldās population lives on a coastline... 8:32 ...thatās less than 10 metres above sea level 8:35 For these coastal inhabitants, a 3Ā°C world would spell disaster 8:40 By 2100, global sea levels could have climbed by half a metre from 2005 levels 8:46 Low-lying cities like Lagos would be especially vulnerable... 8:49 ...with up to up to a third of the population displaced 8:54 And in Fiji, rising waters are already upending lives 9:04 You can see the graveyard there, itās all under water now... 9:08 ...due to this rising sea level and climate change 9:15 The village of Togoru in Fiji is being swallowed by the sea 9:19 Barney Dunn, the village headman, has seen over half the village disappear 9:24 Relativesā houses have been abandoned, and family graves are now under water 9:29 We have been asked by the government to relocate... 9:32 ...but no one wants to relocate... 9:34 ...because we have our great-great-grandparents down there in the sea 9:39 This is the place weāve been brought up in 9:41 ...itās not easy to leave 9:44 Past attempts to build a seawall havenāt worked 9:48 But Barney sees building a new one as the villageās only hope 9:52 If they do that, maybe we can save whatever is left 9:56 But if we donāt have the seawall, then it will be keep eroding and time will come... 10:01 ...maybe in ten,15 years, Togoru will be all eroded 10:05 Rising seas also mean storms cause more floods 10:11 And many more countries could suffer 10:14 The Philippines and Myanmar are just two countries... 10:17 ...that will also see an increase in storm surges in a 3Ā°C world 10:21 To escape, many will moveā¦ 10:24 ā¦often, to urban areas Extreme heat and wet-bulb temperatures 10:27 Half the worldās population already lives in cities... 10:31 ...almost a third in slums 10:36 For them, a 3Ā°C world could be deadly 10:40 Minara has moved to Dhaka to escape the impact of climate change 10:44 But life could get even worse for her 10:47 Iām struggling a lot nowadays 10:49 The heat during the day is unbearable 10:52 Even late at night it doesnāt cool down 10:57 The heat is getting more intense every day 10:59 I mean, itās going to get much worse 11:03 I can barely survive it now, how will I live through it in the future? 11:08 Dhaka is getting hotter 11:11 In the last 20 years the average daytime temperature... 11:13 ...has crept up by nearly half a degree 11:17 Days that approach 40Ā°C are now being reported 11:20 And high so-called wet-bulb temperatures are on the rise 11:26 A wet-bulb temperature is a measure of heat and humidity 11:30 Humans cool themselves by sweatingā¦ 11:32 But in these conditions, when relative humidity is near 100%... 11:36 ...sweat doesnāt evaporate well 11:38 So people canāt cool downā¦ 11:41 ...even if given unlimited shade and water 11:45 At a high wet-bulb temperature, the body canāt lose heat... 11:49 ...and so it gets hotter and hotter... 11:51 ...and the body is designed to work at a given temperature 11:53 And if it gets too hot inside, you will die 11:58 The human limit for wet-bulb temperatures is 35Ā°C... 12:02 ...around skin temperature 12:04 Dhaka will have a much higher chance... 12:05 ...of reaching dangerous wet-bulb temperatures... 12:07 ...if global warming reaches 3Ā°C 12:12 You canāt really adapt to that 12:14 You have to get out. If the temperature is so high that you canāt work... 12:20 ...canāt do hard manual labour outside for significant parts of the year... 12:25 ...then many places will become functionally no longer part of the economy 12:33 Jacobabad in Pakistan, and Ras al Khaimah, in the United Arab Emirates... 12:37 ...have already recorded deadly wet-bulb temperatures 12:40 More of the tropics and the Persian Gulf... 12:43 ...as well as parts of Mexico and the south-eastern United States... 12:47 ...could all get to this threshold by the end of the century 12:50 Climate modelling might show us the weather Increased migration and conflict 12:52 But it doesnāt show us its other effects on society 12:56 Established migration patterns could change 12:59 Climate disasters may exacerbate reasons people cross borders 13:03 Within countries, more people will move to cities 13:07 In a 3Ā°C world, tens of millions of people a year... 13:10 ...could be displaced by disasters made worse by climate change 13:15 When people are displaced by climate... 13:18 ā¦they may well go to cities... 13:19 ...because cities are the places that attract people from the countryside already 13:25 A lot of people who can get to the developed world... 13:28 ...not least because the developed world tends to be less hot, will give that a go 13:35 As migration around the world increases... 13:38 ...there could be more competition for fewer resources 13:42 Waterāalready a highly contested resourceāwill be a focal point 13:47 Turkeyās new Ilisu dam has reduced the flow of water into Iraq 13:53 China lays claim to rivers vital to India and Pakistan 13:57 The prospect of a water-conflict makes people very uneasy 14:03 How national tensions would exacerbate those sorts of reactions... 14:08 ...in a 3Ā°C world... 14:09 ...is the sort of thing that no one should really want to find out 14:14 I think youād have to be incredibly sanguine... 14:16 ...not to think that the sort of climate extremes that we talk about... 14:19 ...in a 3Ā°C world wouldnāt lead some places... 14:22 ...to the brink of societal collapse 14:25 Those lucky enough to escape unrest... Adaptation and mitigation are crucial 14:28 ...would still have to adapt to a radically different world 14:32 People can adapt to climate change in all sorts of ways, one of the most obvious ones... 14:37 ...is air conditioning 14:39 But other ways to adapt at a local or regional level... 14:42 ...I mean, one of the most obvious is diversifying agriculture 14:47 There are physical things you can do, like seawalls 14:52 The fact that people can adapt and that adaptation will reduce suffering... 14:57 ...doesnāt mean that it will eliminate suffering 15:00 Suffering is built into this whole process of heating up the planet 15:06 Adaptation will only get the world so far 15:09 The best way to deal with a 3Ā°C world... 15:12 ...is not to go to a 3Ā°C world 15:14 And thatās why increasing efforts on mitigation are important 15:17 Itās why working towards negative emissions... 15:20 ...that could bring down the temperature after it peaks are important 15:25 Once you get to a 3Ā°C world, you are in real bad global trouble 15:33 The scale of change needed... 15:35 ...and the slow progress of governments so far... 15:38 ...means 3Ā°C of warming is uncomfortably likely unless more is done 15:44 Despite existing pledges, greenhouse-gas emissions... 15:48 ...are still set to rise by 16% from 2010 levels by 2030 15:54 The need to act has never been clearer 15:57 Thereās still time to reduce emissions, so that a 3Ā°C world remains fiction... 16:02 ...rather than becoming factAnd explode. A good example is the eruption of Washington's Mount St. Helens. In this type of eruption, the magma blasts into the air and breaks apart into pieces called tephra. Tephra can range in size from tiny particles of ash to house- size boulders. Explosive volcanic eruptions can be dangerous and deadly. They can blast out clouds of hot tephra from the side or top of a volcano. These fiery clouds race down mountainsides destroying almost everything in their path. Ash erupted into the sky falls back to Earth like powdery snow. If thick enough, blankets of ash can suffocate plants, animals, and humans. When hot volcanic materials mix with water from streams or melted snow and ice, mudflows form. Mudflows have buried entire communities located near erupting volcanoes1.Ownership ā He has full ownership of the property. ŠŠ½ ŠæŠ¾Š»Š½Š¾ŃŃŃŃ Š²Š»Š°Š“ŠµŠµŃ ŃŃŠ¾Š¹ Š½ŠµŠ“Š²ŠøŠ¶ŠøŠ¼Š¾ŃŃŃŃ. 2.Property ā They invested in real estate property. ŠŠ½Šø Š²Š»Š¾Š¶ŠøŠ»Šø Š“ŠµŠ½ŃŠ³Šø Š² Š½ŠµŠ“Š²ŠøŠ¶ŠøŠ¼Š¾ŃŃŃ. 3.Inheritance ā She received a large inheritance from her grandfather. ŠŠ½Š° ŠæŠ¾Š»ŃŃŠøŠ»Š° Š±Š¾Š»ŃŃŠ¾Šµ Š½Š°ŃŠ»ŠµŠ“ŃŃŠ²Š¾ Š¾Ń Š“ŠµŠ“ŃŃŠŗŠø. 4.Will ā His will states that his son inherits everything. Š ŠµŠ³Š¾ Š·Š°Š²ŠµŃŠ°Š½ŠøŠø Š³Š¾Š²Š¾ŃŠøŃŃŃ, ŃŃŠ¾ ŃŃŠ½ ŃŠ½Š°ŃŠ»ŠµŠ“ŃŠµŃ Š²ŃŃ. 5.Divorce ā They got a divorce after ten years of marriage. ŠŠ½Šø ŃŠ°Š·Š²ŠµŠ»ŠøŃŃ ŠæŠ¾ŃŠ»Šµ Š“ŠµŃŃŃŠø Š»ŠµŃ Š±ŃŠ°ŠŗŠ°. 6.Custody ā The mother got custody of the children. ŠŠ°ŃŃ ŠæŠ¾Š»ŃŃŠøŠ»Š° Š¾ŠæŠµŠŗŃ Š½Š°Š“ Š“ŠµŃŃŠ¼Šø. 7.Alimony ā He has to pay alimony to his ex-wife. ŠŠ½ Š“Š¾Š»Š¶ŠµŠ½ ŠæŠ»Š°ŃŠøŃŃ Š°Š»ŠøŠ¼ŠµŠ½ŃŃ Š±ŃŠ²ŃŠµŠ¹ Š¶ŠµŠ½Šµ. 8.Adoption ā They decided to adopt a child. ŠŠ½Šø ŃŠµŃŠøŠ»Šø ŃŃŃŠ½Š¾Š²ŠøŃŃ ŃŠµŠ±ŃŠ½ŠŗŠ°. 9.Real estate ā Investing in real estate can be profitable. ŠŠ½Š²ŠµŃŃŠøŃŠ¾Š²Š°Š½ŠøŠµ Š² Š½ŠµŠ“Š²ŠøŠ¶ŠøŠ¼Š¾ŃŃŃ Š¼Š¾Š¶ŠµŃ Š±ŃŃŃ ŠæŃŠøŠ±ŃŠ»ŃŠ½ŃŠ¼. 10.Tenant ā The tenant must pay rent every month. ŠŃŠµŠ½Š“Š°ŃŠ¾Ń Š“Š¾Š»Š¶ŠµŠ½ ŠæŠ»Š°ŃŠøŃŃ Š°ŃŠµŠ½Š“Ń ŠŗŠ°Š¶Š“ŃŠ¹ Š¼ŠµŃŃŃ.The outdoor recreation industry represents a new economy. The leaders of this economy will need to have a deep understanding of our local natural resources and integrate the components of innovation, health, and wellness into a vision for what comes next. Everyone wins when you do the right things for the environment, the community, and the venture. We want to offer the young generation a chance to be part of the foundation we are building for adventure tourism in the emirates and the region. Adventure Tourism Is the Fastest-Growing Global Niche. What does this mean? It means that thereās plenty of room for young experts to enter the field. Itās not just the "guides" that the adventure tourism industry needs. Itās everything that goes with it, from adventure tourism accommodations to trip planners, event managers, marketing and finance directors, advertising, public relations, and communications. We want to highlight that adventure tourism requires more than just guides, and various careers within adventure tourism play a big role in attracting high-value customers, supporting local economies, and encouraging sustainable practices. The continued growth of this sector creates net positive impacts not only for tourism, but also for destination economies, their people, and their environment. 1) Understanding Tourism Tourism is one of the worldās fastest-growing industries and a major foreign exchange and employment generation for many countries. It is one of the most remarkable economic and social phenomena. 2) Understanding Adventure Tourism Adventure tourism is defined as the movement of the people from one to another place outside their comfort zone for exploration or travel to remote areas, exotic and possibly hostile areas. Adventure tourism is a type of tourism in which tourists engage in adventure activities such as trekking, climbing, rafting, scuba diving, or the likes. Adventure tourism gains much of its excitement by allowing the tourist to step outside their comfort zone. This may be from experiencing culture shock or through the performance of acts that required some degree of risk whether real or perceived. It is also about connecting with a new culture or a new landscape and being physically active at the same time. It is not only about being risky or pushing your boundaries. In fact, it is especially important to know and respect your limits while you are in an unfamiliar area. Adventure travel is a leisure activity that takes place in an unusual, exotic, remote, or wilderness destination. It tends to be associated with high levels of activity by the participant, most of it outdoors. Adventure tourists expect to experience various levels of risk, excitement, and tranquillity and be personally tested. In particular, they are explorers of unspoiled, exotic parts of the planet and also seek personal challenges. The main factor distinguishing adventure tourism from all other forms of tourism is the planning and preparation involved. 3) Definitions of Adventure Tourism Adventure tourism is a new concept in the tourism industry. The tourism industry adopted adventure tourism, but there is not any specific definition of adventure tourism. Most commentators concur that adventure tourism is a niche sector of the tourism industry, but there are many other niche sectors in tourism that have the same characteristics that overlap with adventure tourism such as ecotourism, activity tourism, or adventure travel. One of them can confuse. Adventure tourism is a complicated and ambiguous topic. Some important definitions of adventure tourism are as following: A) According to the Adventure Travel Trade Association (ATTA): āadventure tourism is a tourist activity that includes physical activity, cultural exchange, or activities in nature.ā B) According to Muller and Cleaver: āAdventure tourism is characterized by its ability to provide the tourist with relatively high levels of sensory stimulation, usually achieved by including physically challenging experiential components with the tourist experience.ā C) The Canadian Tourism Commission in 1995 defines adventure tourism as: āan outdoor leisure activity that takes place in an unusual, exotic, remote or wilderness destination, involves some form of unconventional means of transportation, and tends to be associated with low or high levels of activity.ā D) According to Sung et al: āadventure tourism is the sum of the phenomena and relationships arising from the interactions of adventure touristic activities with the natural environment away from the participantās usual place of residence area and containing elements of risk in which the outcome is influenced by the participation, setting, and the organizer of the touristās experience.ā E) According to UNWTO: ā adventure tourism can be domestic or international, and like all travel, it must include an overnight stay, but not last longer than one year.ā 4) Types of Adventure Tourism Adventure tourism has grown exponentially all over the world in recent years with tourists visiting destinations previously undiscovered. This allows for new destinations to market themselves as truly unique, appealing to those travellers looking for a rare, incomparable experience. Adventure tourism includes various activities like caving, hiking, sailing, trekking, etc. Adventure tourism is categorized into two categories: ā¢ Hard Adventure ā¢ Soft Adventure Hard Adventure Hard adventure refers to activities with high levels of risk, requiring intense commitment and advanced skills. Hard tourism includes the activities like climbing mountains/rock/ice, trekking, caving, etc. Hard adventure activities are highly risked in nature. Professional guides and advanced levels of skills are required to perform these activities. Many tourists died during climbing mountains, caving every day. Soft Adventure Soft adventure refers to activities with a perceived risk but low levels of risk, requiring minimal commitment and beginner skills; experienced guides lead most of these activities. Soft tourism includes the activities like backpacking, camping, hiking, kayaking, etc. Soft adventure activities are low-risk in nature. Professional guides lead these activities. Soft adventure is a popular category in adventure tourism as it caters to a wider audience. 5) Adventure Tourism Activities Adventure travellers are early adopters by nature, meaning they are generally more willing to try new destinations, activities, and travel products. Popular activities change rapidly, and it seems there is a new twist on an existing sport every year. Some activities have low risk and some have high. Adventure tourism activities are classified into two types: ā¢ Hard Adventure Activities ā¢ Soft Adventure Activities Hard Adventure Activities Hard adventure activities are highly risky and dangerous in nature. These activities are as the following: ā¢ Caving ā¢ Mountain Climbing ā¢ Rock Climbing ā¢ Ice Climbing ā¢ Trekking ā¢ Sky Diving Soft Adventure Activities These activities are less dangerous and risk as compared to hard adventure activities. These activities are mostly lead by professional guides. An example of these activities are: ā¢ Backpacking ā¢ Bird watching ā¢ Camping ā¢ Canoeing ā¢ Eco-tourism ā¢ Fishing ā¢ Hiking ā¢ Horseback riding ā¢ Hunting ā¢ Kayaking/sea/whitewater ā¢ Orienteering ā¢ Safaris ā¢ Scuba Diving ā¢ Snorkeling ā¢ Skiing ā¢ Snowboarding ā¢ Surfing Adventure tourism activities sit well with the environment because the natural world provides us with the resources for many of the activities that provide risk, challenge, sensory stimulus, novelty, discovery, and so on. 6) Characteristics and Features of Adventure Tourism The threefold combination of activity, nature, and culture marks adventure travel as an all-around challenge. Some unique characteristics and features of adventure tourism are as the following: ā¢ Physical activity, like involving physical exertion or psychomotor skills ā¢ Contact with nature, activities bringing contact with the natural world in general, or with specific wildlife ā¢ Contact with different cultures, i.e. people, faith, lifestyles ā¢ Journeys for example vehicle, animal, or human power ā¢ Uncertain outcomes ā¢ Danger and risk ā¢ Challenges ā¢ Anticipated rewards ā¢ Novelty ā¢ Stimulation and excitement ā¢ Exploration and discovery ā¢ Contrasting emotions 7) Adventure Tourism Supplier A tourism supply chain is the system of people, products, activities, and materials that get a product or service from its raw state through production and distribution to the consumer. As with any sector, volume discounts drive the mass price point, so major retailers primarily market select trips that sell in high volume. The supply chain for these mass tourism products is often very simple, comprising only transportation and accommodation elements. The adventure tourism supply chain is more complex. Niche products often require specializes in knowledge and operations. Adventure tourismās supply chain linkages go very deep, and this is one of the key reasons that adventure tourism delivers greater benefits at the local level. Supply chains vary from destination to destination. Without a proper supply chain, the tourism sector cannot survive. Tourism suppliers are the backbone of the tourism industry. Adventure tourism suppliers work at a different, different level like as domestic as well international level. 8) Adventure Tourism Importance and Benefits Adventure tourism is one of the fastest-growing sectors of the tourism sector, attracting high-value customers, supporting local economies, and encouraging sustainable practices. The continued growth of this sector creates net positive impacts not only for tourism, but also for destination economies, their people, and their environment. Some importance and benefits of adventure tourism are: A) Employment Generation Adventure tourism generates jobs. Adventure tourism generates directs jobs to accommodation, transportation sector, and travel agencies or tour operators. Adventure tourism also provides indirect jobs to tourism suppliers. Adventure tourism plays an important role in the generation of employment in the economy. B) Foreign Exchange Adventure tourism attracts foreign tourists on a large scale, as a result, it helps in foreign exchange generation. When tourists travel to another country, they spend a large amount of money on accommodation, transportation, and shopping. Adventure tourism generates foreign exchange and supports the economy of the host country. C) Economy Development Adventure tourism helps in the development of the host countryās economy. Adventure tourism activities directly support the economy in various forms. The more tourists, the more economic growth. D) Support Local Communities Adventure tourism helps in the development of infrastructure and supports local communities. Adventure tourism activities directly contributed to the local economy of the communities and increase local people's living standards. E) Conservation of Natural Resources Adventure tourism activities are nature-based activities. Leaders in the adventure tourism industry are dedicated to making this tourism segment as sustainable as possible. They help in the conservation of natural resources as well as culture. F) Creating Business Opportunities Adventure tourism activities create new business opportunities. Several companies specialize in helping emerging adventure tourism operators market their products. Each new adventure tourism activity creates a new business opportunity. G) Local and Foreign Investment Adventure tourism creates business opportunities; as a result, it attracts local as well as international investors. Investors invest their money in accommodation, transportation, and travel trade organization. Adventure tourism plays an important role in the economy of the host country.Volcanic Eruptions Earthquakes are sometimes used in predicting volcanic eruptions. An earthquake alerts the authorities to observe a nearby volcano. When a volcano shows signs of eruption, evacuation of the nearby villages should be immediately implemented Active volcanoes are the ones that are usually closely monitored by volcanologists These are commonly located along plate boundaries specifically along the Pacific Ring of Fire. The Philippines is one of the countries that have a lot of volcanoes. The Pacific Ring of Fire is a region in the Pacific where most active volcanoes are located. The dots in the figure represent the active volcanoes in the world. Active volcanoes are those that have a recorded volcanic eruption in their history. There are two types of volcanic eruptions depending on the magma composition: the explosive type and the Hawaiian or nonexplosive type. The types of eruptions depend on the viscosity and amount of dissolved gases in a magma. Explosive eruptions have magma that is highly viscous and contains large amounts of dissolved gases. On the other hand, the Hawaiian type or nonexplosive eruptions have magma that has low viscosity and low amount of dissolved gases. Viscosity determines the ability of magma to flow. The lower the viscosity, the easier it is for the magma to flow. This viscosity of the magma is affected by silica content and temperature. Low-temperature magma with high silica content are highly viscous, high-temperature magma with low silica content has low viscosity. Therefore, in explosive eruptions, the magma could not easily get out of the vent. This impedes the remaining magma below, causing an increase of pressure. Once the pressure is released. an explosive eruption occurs. Volcanic Hazards Explosive volcanic eruptions release pyroclastic flows and materials that are considered to pose the greatest threat. The pyroclastic flows often render people in a shock state since they become overwhelmed with what they are seeing Too much pyroclastic material (eg., tephra), may bury people and severely damage the agricultural land and livestock. Damaged agricultural land could lead to famine. After an eruption, pyroclastic materials that have settled along the slope of the volcano get mixed with rainwater. This would start a mudflow or lahar moving at high speed, destroying everything along its path. Poisonous gases are also released by volcanoes. These gases can be lethal to people, animals, and plants. Just like earthquakes, violent volcanic eruptions may also happen underwater, which can trigger a tsunami.