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Legend: A rare-earth element ( REE) or rare-earth metal ( REM), as defined by the, is one of a set of seventeen in the, specifically the fifteen, as well as. Scandium and yttrium are considered rare-earth elements because they tend to occur in the same deposits as the lanthanides and exhibit similar chemical properties, but have different electronic.

Rarely, a broader definition that includes may be used, since the actinides share some mineralogical, chemical, and physical (especially electron shell configuration) characteristics.The 17 rare-earth elements are (Ce), (Dy), (Er), (Eu), (Gd), (Ho), (La), (Lu), (Nd), (Pr), (Pm), (Sm), (Sc), (Tb), (Tm), (Yb), and (Y). They are often found in minerals with (Th), and less commonly (U).Despite their name, rare-earth elements are – with the exception of the promethium – relatively plentiful in, with cerium being the 25th at 68 parts per million, more abundant than. However, because of their properties, rare-earth elements are typically dispersed and not often found concentrated in; as a result economically exploitable are less common. The first rare-earth mineral discovered (1787) was, a mineral composed of cerium, yttrium, iron, silicon, and other elements.

This mineral was extracted from a mine in the village of in; four of the rare-earth elements bear names derived from this single location. Contents.List A table listing the 17 rare-earth elements, their and symbol, the etymology of their names, and their main usages (see also ) is provided here. Parts per million in earth's crust, e.g.

Pb=13 ppm. No stable isotopes occurring in nature.Abbreviations The following abbreviations are often used:. RE = rare earth. REM = rare-earth metals.

REE = rare-earth elements. REO = rare-earth oxides.

REY = rare-earth elements and yttrium. LREE = light rare-earth elements. HREE = heavy rare-earth elementsDiscovery and early history The first rare-earth element discovered was the black mineral 'ytterbite' (renamed to in 1800).

It was discovered by Lieutenant in 1787 at a quarry in the village of, Sweden.Arrhenius's 'ytterbite' reached, a professor, and his analysis yielded an unknown oxide (earth) that he called. Isolated from the gadolinite but failed to recognize other elements ore contained. After this discovery in 1794 a mineral from near, Sweden, which was believed to be an – mineral, was re-examined. In 1803 they obtained a white oxide and called it. Independently discovered the same oxide and called it ochroia.Thus by 1803 there were two known rare-earth elements, yttrium and cerium, although it took another 30 years for researchers to determine that other elements were contained in the two ores ceria and yttria (the similarity of the rare-earth metals' chemical properties made their separation difficult).In 1839, an assistant of Berzelius, separated ceria by heating the nitrate and dissolving the product in.

He called the oxide of the soluble salt lanthana. It took him three more years to separate the lanthana further into didymia and pure lanthana. Didymia, although not further separable by Mosander's techniques, was in fact still a mixture of oxides.In 1842 Mosander also separated the yttria into three oxides: pure yttria, terbia and erbia (all the names are derived from the town name 'Ytterby'). The earth giving pink salts he called terbium; the one that yielded yellow peroxide he called erbium.So in 1842 the number of known rare-earth elements had reached six: yttrium, cerium, lanthanum, didymium, erbium and terbium.and tried also to separate the crude yttria and found the same substances that Mosander obtained, but Berlin named (1860) the substance giving pink salts erbium, and Delafontaine named the substance with the yellow peroxide terbium.

This confusion led to several false claims of new elements, such as the mosandrium of, or the philippium and of Delafontaine. Due to the difficulty in separating the metals (and determining the separation is complete), the total number of false discoveries was dozens, with some putting the total number of discoveries at over a hundred. Spectroscopy There were no further discoveries for 30 years, and the element was listed in the periodic table of elements with a molecular mass of 138. In 1879 used the new physical process of optical flame and found several new spectral lines in didymia. Also in 1879, the new element was isolated by from the mineral.The samaria earth was further separated by Lecoq de Boisbaudran in 1886, and a similar result was obtained by by direct isolation from samarskite. They named the element after, and its oxide was named 'gadolinia'.Further spectroscopic analysis between 1886 and 1901 of samaria, yttria, and samarskite by, Lecoq de Boisbaudran and yielded several new spectroscopic lines that indicated the existence of an unknown element.

The fractional crystallization of the oxides then yielded in 1901.In 1839 the third source for rare earths became available. This is a mineral similar to gadolinite, uranotantalum (now called 'samarskite').

This mineral from in the southern was documented. The Russian chemist R. Harmann proposed that a new element he called ' should be present in this mineral, but later, Galissard de Marignac, and found only and in it.The exact number of rare-earth elements that existed was highly unclear, and a maximum number of 25 was estimated. The use of X-ray spectra (obtained by ) by made it possible to assign atomic numbers to the elements. Moseley found that the exact number of lanthanides had to be 15, and that had yet to be discovered.Using these facts about atomic numbers from X-ray crystallography, Moseley also showed that (element 72) would not be a rare-earth element.

Moseley was killed in in 1915, years before hafnium was discovered. Hence, the claim of that he had discovered element 72 was untrue. Hafnium is an element that lies in the periodic table immediately below, and hafnium and zirconium are very similar in their chemical and physical properties.During the 1940s, and others in the United States (during the ) developed the chemical procedures for separating and purifying the rare-earth elements.

This method was first applied to the for separating and from, and the other actinides in the materials produced in. The plutonium-239 was very desirable because it is a.The principal sources of rare-earth elements are the minerals, and and the ion-adsorption. Despite their high relative abundance, are more difficult to mine and extract than equivalent sources of (due in part to their similar chemical properties), making the rare-earth elements relatively expensive. Their industrial use was very limited until efficient separation techniques were developed, such as, and during the late 1950s and early 1960s.Some ilmenite concentrates contain small amounts scandium and other rare-earth elements, which could be analysed by XRF. Early classification Before the time that and were available, the separation of the rare earths was primarily achieved by repeated.

In those days, the first separation was into two main groups, the cerium earths (scandium, lanthanum, cerium, praseodymium, neodymium, and samarium) and the yttrium earths (yttrium, dysprosium, holmium, erbium, thulium, ytterbium, and lutetium). Europium, gadolinium, and terbium were either considered as a separate group of rare-earth elements (the terbium group), or europium was included in the cerium group, and gadolinium and terbium were included in the yttrium group. The reason for this division arose from the difference in of rare-earth double sulfates with sodium and potassium. The sodium double sulfates of the cerium group are difficultly soluble, those of the terbium group slightly, and those of the yttrium group are very soluble.

Sometimes, the yttrium group was further split into the erbium group (dysprosium, holmium, erbium, and thulium) and the ytterbium group (ytterbium and lutetium), but today the main grouping is between the cerium and the yttrium groups. Today, the rare-earth elements are classified as light or heavy rare-earth elements, rather than in cerium and yttrium groups.Light versus heavy classification The classification of rare-earth elements is inconsistent between authors. The most common distinction between rare-earth elements is made by; those with low atomic numbers are referred to as light rare-earth elements (LREE), those with high atomic numbers are the heavy rare-earth elements (HREE), and those that fall in between are typically referred to as the middle rare-earth elements (MREE).

Commonly, rare-earth elements with atomic numbers 57 to 61 are classified as light and those with atomic numbers greater than 62 (corresponding to samarium) are classified as heavy-rare earth elements. Increasing atomic numbers between light and heavy rare-earth elements and decreasing throughout the series causes chemical variations. Europium is exempt of this classification as it has two valence states: Eu +2 and Eu +3. Yttrium is grouped as heavy rare-earth element due to chemical similarities.The 1985 “Red Book” (p. 45) recommends that lanthanoid is used rather than lanthanide. The ending “-ide” normally indicates a negative ion.

However, owing to wide current use, “lanthanide” is still allowed and is roughly analogous to rare earth element.According to Professor of chemistry, rare-earth elements differ from other elements, insofar that 'rare-earth metals, when looked at anatomically, seem to be inseparable from each other, in that they are all almost exactly the same in terms of their chemical properties. However, in terms of their electronic properties, their magnetic properties, each one is really exquisitely unique, and so it can occupy a tiny niche in our technology, where virtually nothing else can.' For example, 'the rare-earth elements (Pr) and (Nd) can both be embedded inside glass and they completely cut-out the glare from the flame when one is doing.' Origin Rare-earth elements, except, are heavier than and thus are produced by or by the in stars. In nature, of produces trace amounts of radioactive, but most promethium is synthetically produced in nuclear reactors.Due to their chemical similarity, the concentrations of rare earths in rocks are only slowly changed by geochemical processes, making their proportions useful for and dating fossils.Geological distribution. Global production 1950–2000Until 1948, most of the world's rare earths were sourced from sand deposits in. Through the 1950s, South Africa was the world's rare-earth source, from a monazite-rich reef at the in province.

Through the 1960s until the 1980s, the in California made the United States the leading producer. Today, the Indian and South African deposits still produce some rare-earth concentrates, but they are dwarfed by the scale of Chinese production. In 2017, China produced 81% of the world's rare-earth supply, mostly in, although it had only 36.7% of reserves. Australia was the second and only other major producer with 15% of world production.

All of the world's heavy rare earths (such as dysprosium) come from Chinese rare-earth sources such as the deposit. The Browns Range mine, located 160 km south east of in northern, is currently under development and is positioned to become the first significant dysprosium producer outside of China.Increased demand has strained supply, and there is growing concern that the world may soon face a shortage of the rare earths. In several years from 2009 worldwide demand for rare-earth elements is expected to exceed supply by 40,000 tonnes annually unless major new sources are developed. In 2013, it was stated that the demand for REEs would increase due to the dependence of the EU on these elements, the fact that rare earth elements cannot be substituted by other elements and that REEs have a low recycling rate. Furthermore, due to the increased demand and low supply, future prices are expected to increase and there is a chance that countries other than China will open REE mines. REE is increasing in demand due to the fact that they are essential for new and innovative technology that is being created.

These new products that need REEs to be produced are high technology equipment such as smart phones, digital cameras, computer parts, semiconductors, etc. In addition, these elements are more prevalent in the following industries: renewable energy technology, military equipment, glass making, and metallurgy.

See also:These concerns have intensified due to the actions of China, the predominant supplier. Specifically, China has announced regulations on exports and a crackdown on smuggling. On September 1, 2009, China announced plans to reduce its export quota to 35,000 tons per year in 2010–2015 to conserve scarce resources and protect the environment.

On October 19, 2010, citing an unnamed Ministry of Commerce official, reported that China will 'further reduce quotas for rare-earth exports by 30 percent at most next year to protect the precious metals from over-exploitation.' The government in Beijing further increased its control by forcing smaller, independent miners to merge into state-owned corporations or face closure.

At the end of 2010, China announced that the first round of export quotas in 2011 for rare earths would be 14,446 tons, which was a 35% decrease from the previous first round of quotas in 2010. China announced further export quotas on 14 July 2011 for the second half of the year with total allocation at 30,184 tons with total production capped at 93,800 tonnes. In September 2011, China announced the halt in production of three of its eight major rare-earth mines, responsible for almost 40% of China's total rare-earth production. In March 2012, the US, EU, and Japan confronted China at WTO about these export and production restrictions. China responded with claims that the restrictions had environmental protection in mind. Metallurgy, 10% (10%)The uses, applications, and demand for rare-earth elements has expanded over the years.

Globally, most REEs are used for and magnets. In USA, more than half of REEs are used for catalysts, and ceramics, glass and polishing are also main uses.Other important uses of rare-earth elements are applicable to the production of high-performance magnets, alloys, glasses, and electronics. Ce and La are important as catalysts, and are used for and as. Nd is important in magnet production in traditional and low-carbon technologies. Rare-earth elements in this category are used in the electric motors of and, generators in, hard disc drives, portable electronics, microphones, speakers.Ce, La and Nd are important in alloy making, and in the production of. Ce, Ga and Nd are important in electronics and are used in the production of LCD and plasma screens, fiber optics, lasers, as well as in medical imaging. Additional uses for rare-earth elements are as tracers in medical applications, fertilizers, and in water treatment.REEs have been used in agriculture to increase plant growth, productivity, and stress resistance seemingly without negative effects for human and animal consumption.

REEs are used in agriculture through REE-enriched fertilizers which is a widely used practice in China. In addition, REEs are feed additives for livestock which has resulted in increased production such as larger animals and a higher production of eggs and dairy products.

However, this practice has resulted in REE bio-accumulation within livestock and has impacted vegetation and algae growth in these agricultural areas. Additionally while no ill effects have been observed at current low concentrations the effects over the long term and with accumulation over time are unknown prompting some calls for more research into their possible effects.

Environmental considerations REEs are naturally found in very low concentration in the environment. Near mining and industrial sites the concentrations can rise to many times the normal background levels. Once in the environment REEs can leach into the soil where their transport is determined by numerous factors such as erosion, weathering, pH, precipitation, ground water, etc. Acting much like metals they can speciate depending on the soil condition being either motile or adsorbed to soil particles. Depending on their bio-availability REEs can be absorbed into plants and later consumed by humans and animals. Including the mining of REEs and REE-enriched fertilizers, the production of phosphorus fertilizers also contribute to REE contamination due to their production and deposition around the phosphorus fertilizer production plants.

Furthermore, strong acids are used during the extraction process of REEs, which can then leach out in to the environment and be transported through water bodies and result in the acidification of aquatic environments. Another additive of REE mining that contributes to REE environmental contamination is ( CeO2) which is produced during the combustion of diesel and is released as an exhaust particulate matter and contributes heavily to soil and water contamination. False-color satellite image of the, 2006Mining, refining, and recycling of rare earths have serious environmental consequences if not properly managed. A potential hazard could be low-level radioactive resulting from the occurrence of and in rare-earth element ores. Improper handling of these substances can result in extensive environmental damage. In May 2010, China announced a major, five-month crackdown on illegal mining in order to protect the environment and its resources.

This campaign is expected to be concentrated in the South, where mines – commonly small, rural, and illegal operations – are particularly prone to releasing toxic wastes into the general water supply. However, even the major operation in, in Inner Mongolia, where much of the world's rare-earth supply is refined, has caused major environmental damage.

Consequences and remediation. This section needs to be updated.

Please update this article to reflect recent events or newly available information. ( May 2019)After the, the mine in has been the focus of a US$100 million cleanup that is proceeding in 2011. After having accomplished the hilltop entombment of 11,000 truckloads of radioactively contaminated material, the project is expected to entail in summer, 2011, the removal of 'more than 80,000 steel barrels of radioactive waste to the hilltop repository.'

In May 2011, after the, widespread protests took place in Kuantan over the and radioactive waste from it. The ore to be processed has very low levels of thorium, and Lynas founder and chief executive Nicholas Curtis said 'There is absolutely no risk to public health.' Jayabalan, a doctor who says he has been monitoring and treating patients affected by the Mitsubishi plant, 'is wary of Lynas's assurances. The argument that low levels of thorium in the ore make it safer doesn't make sense, he says, because radiation exposure is cumulative.' Construction of the facility has been halted until an independent panel investigation is completed, which is expected by the end of June 2011. Were announced by the Malaysian government in late June.panel investigation is completed and no construction has been halted.

Lynas is on budget and on schedule to start producing 2011. The IAEA report has concluded in a report issued on Thursday June 2011 said it did not find any instance of 'any non-compliance with international radiation safety standards' in the project.If the proper safety standards are followed, REE mining is relatively low impact. Molycorp (before going bankrupt) often exceeded environmental regulations to improve public image. Environmental pollution Literature published in 2004 suggests that along with previously established pollution mitigation, a more circular supply chain would help mitigate some of the pollution that the extraction point. This means recycling and reusing REEs that are already in use or reaching the end of their life cycle.

Impact on vegetation The mining of REEs have caused the of surrounding soil and water of these production areas, which has impacted vegetation in these area by decreasing which affects photosynthesis and inhibits the growth of the plants. However, the impact of REE contamination on vegetation is dependent on the plants present in the contaminated environments because there are some plants that do retain and absorb REEs and there are some that don't. Also, the ability for the vegetation to intake the REE is dependent on the type of REE present in the soil, hence there are a multitude of factors that influence this process. Datei commander 9.2 crack mac. Agricultural plants are the main type of vegetation affected by REE contamination in the environment.

Also, the main two plants that have a higher chance of absorbing and storing REEs are apples and beets. Furthermore, there is a possibility that the REE that can leach out into aquatic environments and can be absorbed by aquatic vegetation, which can then bio-accumulate and potentially enter the human food-chain if livestock or humans choose to eat the vegetation. An example of this situation was the case of the ( Eichhornia crassipes) in China, where the water was contaminated due to a REE-enriched fertilizer being used in an agricultural area of close proximity. This led to the nearby aquatic environment becoming contaminated with and resulted in the water hyacinth becoming three times more concentrated in Cerium than its surrounding water. Impact on human health REEs are a large group with many different properties and levels in the environment, because of this, and limited research, it has been difficult to determine safe levels of exposure for humans. A number of studies have focused on risk assessment based on routes of exposure and divergence from back ground levels related to nearby agriculture, mining, and industry. It has been demonstrated that numerous REEs have toxic properties and are present in the environment or in work places.

Exposure to these can lead to a wide range of negative health outcomes such as cancer, dental loss including death. However these elements are numerous and present in many different forms and at different levels of toxicity, as such it has been difficult to give blanket warnings on risk and toxicity as some of these are harmless while others pose a risk.What toxicity is shown appears to be at very high levels of exposure through ingestion of contaminated food and water, through inhalation of dust/smoke particles either as an occupational hazard or due to proximity to contaminated sites such as mines and cities. Therefore, the main issues that these residents would face is of REEs and the impact on their respiratory system but overall, there can be other possible short term and long term health effects.

It was found that people living near mines in China had many times the levels of REEs in their blood, urine, bone and hair compared to controls far from mining sites. This higher level was related to the high levels of REEs present in the vegetables they cultivated, the soil, and the water from the wells indicating that the high levels were caused by the nearby mine. While REE levels varied between men and women the group most at risk were children because REEs can impacted the neurological development of children.

Hence, it can impact their IQ and can cause memory loss.Residents blamed a rare-earth refinery at Bukit Merah for and eight cases within five years in a community of 11,000 — after many years with no leukemia cases. Seven of the leukemia victims died. Osamu Shimizu, a director of Asian Rare Earth, said 'the company might have sold a few bags of calcium phosphate fertilizer on a trial basis as it sought to market byproducts; calcium phosphate is not radioactive or dangerous' in reply to a former resident of Bukit Merah who said that 'The cows that ate the grass grown with the fertilizer all died.' Malaysia's Supreme Court ruled on 23 December 1993 that there was no evidence that the local chemical joint venture Asian Rare Earth was contaminating the local environment. Impact on animal health Experiments exposing rats to various cerium compounds have found accumulation primarily in the lungs and liver. This resulted in various negative health outcomes associated with those organs.

REEs have been added to feed in livestock to increase their body mass and increase milk production. They are most-commonly used to increase the body mass of pigs and it was discovered that REEs increase the digestibility and nutrient use of pigs digestive system.

Studies point to a dose response when considering toxicity versus positive effects. While small doses from the environment or with proper administration seem to have no ill effects, larger doses have been shown to have negative effects specifically in the organs where they accumulate. The process of mining REEs in China has resulted in soil and water contamination in certain areas, which when transported into aquatic bodies could potentially bio-accumulate within aquatic biota.

Furthermore, in some cases animals that live in the REE contaminated areas have been diagnosed with organ or system problems. Furthermore, REEs have been used in freshwater fish farming because it protects the fish from possible diseases. One main reason why they have been avidly used in animal livestock feeding is that they have had better results than inorganic livestock feed enhancers. Geo-political considerations China has officially cited resource depletion and environmental concerns as the reasons for a nationwide crackdown on its rare-earth mineral production sector.

However, non-environmental motives have also been imputed to China's rare-earth policy. According to, 'Slashing their exports of rare-earth metals is all about moving Chinese manufacturers up the supply chain, so they can sell valuable finished goods to the world rather than lowly raw materials.' Furthermore, China currently has an effective monopoly on the world's REE Value Chain. (all the refineries and processing plants that transform the raw ore into valuable elements ). In the words of Deng Xiaoping, a Chinese politician from the late 1970s to the late 1980s, 'The Middle East has oil; we have rare earths.

It is of extremely important strategic significance; we must be sure to handle the rare earth issue properly and make the fullest use of our country's advantage in rare earth resources.' One possible example of market control is the division of General Motors that deals with miniaturized magnet research, which shut down its US office and moved its entire staff to in 2006 (China's export quota only applies to the metal but not products made from these metals such as magnets).It was reported, but officially denied, that China instituted an on shipments of rare-earth oxides (but not alloys) to Japan on 22 September 2010, in response to by the. On September 2, 2010, a few days before the fishing boat incident, The Economist reported that 'China.in July announced the latest in a series of annual export reductions, this time by 40% to precisely 30,258 tonnes.' The in its 2010 Critical Materials Strategy report identified as the element that was most critical in terms of import reliance.A 2011 report 'China's Rare-Earth Industry', issued by the US Geological Survey and US Department of the Interior, outlines industry trends within China and examines national policies that may guide the future of the country's production. The report notes that China's lead in the production of rare-earth minerals has accelerated over the past two decades. In 1990, China accounted for only 27% of such minerals.

In 2009, world production was 132,000 metric tons; China produced 129,000 of those tons. According to the report, recent patterns suggest that China will slow the export of such materials to the world: 'Owing to the increase in domestic demand, the Government has gradually reduced the export quota during the past several years.'

In 2006, China allowed 47 domestic rare-earth producers and traders and 12 Sino-foreign rare-earth producers to export. Controls have since tightened annually; by 2011, only 22 domestic rare-earth producers and traders and 9 Sino-foreign rare-earth producers were authorized. The government's future policies will likely keep in place strict controls: 'According to China's draft rare-earth development plan, annual rare-earth production may be limited to between 130,000 and 140,000 metric tons during the period from 2009 to 2015. The export quota for rare-earth products may be about 35,000 metric tons and the Government may allow 20 domestic rare-earth producers and traders to export rare earths.' The United States Geological Survey is actively surveying southern Afghanistan for rare-earth deposits under the protection of United States military forces.

Since 2009 the USGS has conducted remote sensing surveys as well as fieldwork to verify Soviet claims that volcanic rocks containing rare-earth metals exist in Helmand province near the village of Khanneshin. The USGS study team has located a sizable area of rocks in the center of an extinct volcano containing light rare-earth elements including cerium and neodymium. It has mapped 1.3 million metric tons of desirable rock, or about 10 years of supply at current demand levels. The Pentagon has estimated its value at about $7.4 billion.It has been argued that the geopolitical importance of rare earths has been exaggerated in the literature on the geopolitics of renewable energy, underestimating the power of economic incentives for expanded production. This especially concerns neodymium. Due to its role in permanent magnets used for wind turbines, it has been argued that neodymium will be one of the main objects of geopolitical competition in a world running on renewable energy.

But this perspective has been criticised for and failing to recognise that most wind turbines have gears and do not use permanent magnets. See also.

The word for sin in the Greek language is “amartia” (ha-mar-tia). It means “to miss the mark.” Every time we sin we do miss the mark. God has set high standards for us all because He is just and He is deserving of our obedience. It is because we have all missed the mark that. His blood covers every single sin. What happens, though, when we do sin?

What are the consequences of sin? Let us see what the Bible has to say.

Separation“But your iniquities (sin) have made a separation between you and your God.” (Isaiah 59:2a) This is by far the biggest consequence of sin. Every sin is an offense to God, and God cannot be in the presence of sin. That is why if you choose to keep committing the same sins without repentance, you will stop feeling His presence in your life. The Holy Spirit will stop speaking to you if you refuse to repent. “Do not quench the Spirit.”(1 Thessalonians 5:19) How do you quench the Spirit? The next 3 verses indicate how to not quench the Spirit.

“Do not despise prophecies, but test everything; hold fast to what is good. Abstain from every form of evil.” (1 Thessalonians 5:20-22) If you take to heart and apply these 3 verses to your life, you will hear God speaking through the Holy Spirit in your life. It is Harmful to You. Every time we sin we do miss the mark.The following story is extreme, but it shows you how far your sin can take you. Sodom and Gomorrah were 2 of the most reprehensible cities known to man. They were so filled with sin that God could no longer hold back His wrath.

God knew that Lot and his wife were dedicated to Him, so He sent 2 angels to warn them to leave before the destruction of the cities. “And as they (angels) brought them out, one said, ‘Escape for your life. Do not look back or stop anywhere in the valley. Escape to the hills, lest you be swept away.’” (Genesis 19:17) Lot understood and obeyed. He took his wife and daughters out of the city. He tried to get his future son-in-laws to flee too, but they thought he was joking. When they were out of the city, Lot’s wife could not resist the temptation to sin and look back.

What happened? “But Lot’s wife, behind him, looked back and she became a pillar of salt.” (Genesis 19:26) Lot’s wife lost her because of that one sin. God takes sin seriously, which is why we should always choose His way, instead of our own way. It is Harmful to OthersWhen you choose to run your life instead of letting God guide you, catastrophic events can happen. King Herod was an evil man, full of selfish ambition.

He was troubled when he heard Jesus had been born. (Matthew 2:3) He discovered where Jesus was born (Bethlehem), but God, being omniscient (all knowing) led Jesus away safely through Joseph and Mary to Egypt. Herod’s rage led to massive destruction after he realized that Jesus had been led out of Bethlehem. “Then Herod, when he saw that he had been tricked by the wise men, became furious, and he sent and killed all the male children in Bethlehem and in all that region who were two years old or under.” (Matthew 2:16) Herod’s sin cost the life of many innocent children. Sin is a Catalyst for More SinAs believers, it is the Holy Spirit that convicts us when we do wrong (John 16:7-8), so that we can repent and be clean again. However, in the case of unbelievers or believers who refuse to repent, sin can catapult us into deeper sin.

How does adultery happen? It doesn’t just happen; it is a sin-by-sin process.

It starts with a look, “Wow, that person is very attractive.” (You should be focused on your spouse) If you feed that thought then it escalates, “Talking to them isn’t going to hurt anything.” (You should be thinking about your spouse) That won’t be enough. Now you are attracted physically and somewhat emotionally, “I can’t stop thinking about him/her.” (You should be thinking about your spouse). Then you are in deep water; your sexual drive will overtake you without confessing your sin. Satan knows how to reel anyone in. He has mastered it.

If we don’t take sin seriously, we will end up committing a multitude of sins that started from only one thought. It is an Eternal Death Sentence to Unbelievers“For the wages of sin is death.”(Romans 6:23) It is my prayer that this verse really speaks to you. A true believer will repent of their sins, but those who are rebellious are in serious trouble! Eternal death (separation from God forever) awaits all who choose to not accept Christ as their Lord and Savior.

Christ, Himself, says in Matthew 25:41-46 what will happen to those who do not show to humanity. Those who do not feed the hungry, clothe the naked, visit the sick and in prison, or give a drink to the thirsty will be left alone in utter torment for eternity. The self-seeking, proud, pompous, self-righteous and greedy people will not be in heaven unless they repent.

I want you to know that if you are an unbeliever reading this article — know that God loves you and this is how I know, “The Lord is not slow to fulfill his promise, as some count slowness, but is patient toward you, not wishing that any should perish, but that all should reach repentance.” (2 Peter 3:9) I urge you, if you have not accepted Christ as your Lord and Savior, to wait no longer. Tomorrow is not guaranteed.

ConclusionSin has many consequences; more than I have mentioned. Sin is always destructive, but repentance is always constructive. Please, give your life over to Christ today! He can take everything you are, and make you into someone you never thought you could be. I am living proof!

He absolutely loves you and is waiting for you to. God bless you! Take a look at these other articles that also include topical Bible study:.Resources:The Holy Bible, English Standard Version“Scripture quotations are from The Holy Bible, English Standard Version ® (ESV ®), copyright © 2001 by Crossway, a publishing ministry of Good News Publishers. Used by permission. All rights reserved.”YouTube video “Forgiveness” by Matthew West. Article byis a father of two beautiful children.

He plays guitar for the worship team at his church. Listening or playing music is one of Derek's favorite things to do. He has been in the church his whole life.

His favorite Bible verse is Romans 8:31 - 'What then shall we say to these things? If God is for us, who can be against us?' Derek has written 114 articles on What Christians Want To Know! Read them in the archive below.If you like what you're reading, you can get free daily updates through the. Thanks for stopping! I think we have become sin conscious as believers to the extent that we spent greater part of our lives confessing sins instead of thanking God for the atonement of our sins through his son Jesus Christ.

Jesus has paid for our sins both the past,present and the future sins. Sin does not break fellowship with God. The bible teaches in 1 john 2:2 that he is the propitiation for our sins: and not for ours only but for the sins of the whole world. 1 john 2:12 also says that your sins have been forgiven for his name sake. Revelation 1:5 also states that unto him that loved us, and washed us from our sins in his own blood.Sin is no longer an issue for the believer as all our sins have been paid for by the one offering of Jesus as it is said in the book of Hebrews.In the New Covenant the Lord said that He will put his laws in our mind, and write them in our hearts and he will be our God we shall be his people. He also said that for I will be merciful to their unrighteousness, and their sins and iniquities i will remember them no more.

Hebrews 8:10&12.As believers we are dead to sin. That is why Paul said in Romans 6:2 that how shall we that are dead to sin live any longer therein.As a believer when you sin,it affects your body and gives satanaccess into your life. When you sin you yield yourself servant to the author of that sin which is satan. Romans 6:16 says know ye not that to whom ye yield yourselves servant to obey, his servants ye are to whom ye are to whom ye obey, whether of sin unto death or obedience unto righteousnes?I believe sin has to be judged but our sins have already been judged in Jesus Christ. God is in Christ Jesus reconciling the world unto himsel not imputting our trespasses unto us. 2 Cor 5:19.If you mess up through sin the bible instructs us in Heb 4:16 to come boldly.

I do agree with some of your points, but I think that sin will always be an issue that we must all take seriously and come to the Father with. Yes, Christ’s blood covers our sins, but we still have to own up to what we have done wrong and tell God we are sorry through repentance. Otherwise we aren’t engaging in the relationship that God wants to have with us. Your verses from 1 John are such an encouragement to all of us. I am thankful that we are forgiven because of Christ. You are absolutely right when you say that we give Satan access to us when we sin, and if we don’t take that sin seriously through repentance, we will eventually make Satan the ruler of what we think and do.

Repentance is a must and thanking God for the atonement of our sins is a must. They both go hand in hand. Thank you for your thoughts Sam.

God bless you and have a Merry Christmas!Kathy Owen. You wrote that ” Sin does not break fellowship with God” but it really does for when we are regarding sin in our heart God will not hear us (testified many times in the Davidic psalms). Now our sins do not ever break our relationship with God (maybe that’s what you meant).I think we should confess our sins each and every day. Why, because 1 John 1:9 says, ” If we confess our sins, he is faithful and just and will forgive us our sins and purify us from all unrighteousness.”You also said that “Sin is no longer an issue for the believer” but again and again we need to repent and be forgiven and it is an ongoing issue, not of our salvation, but of our sanctification because “If we claim to be without sin, we deceive ourselves and the truth is not in us” (1 John 1:8). Do you see what I am saying sir?

We don’t lose our salvation over our sin but sin has consequences, even for the Christian for what we reap we will surely sow. Indeed the flesh is weak even when the Spirit is strong. One thing I want to encourage you in is that as long as you are sincere when you repent, God will forgive you every time. Although I have yet to read this book, “Don’t Waste Your Life” by John Piper would be a good one to read. Here is what the product description says on Christianbook.com“In this provocative work Pastor Piper challenges us to set aside the trivial pursuit of self-fulfillment so that we can develop a deeper passion for God. Piper believes that if we passionately submit the sufferings we endure, the risks we take, and the goals we set to the pursuit of God’s glory, then not one moment of our lives will be wasted. Don’t miss this opportunity to rekindle your passion for the cross of Christ and the glory of God.”I hope this helps you.

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Blessings on you!Will. Thanks for putting up a piece that talks about the effects/consequences of sin. As I prepare to preach for the downfall of Absalom, it would be inappropriate to do so without mentioning the terrible after-effects of David’s sin with Bathsheba. I was wondering if I could include your five points about sin’s consequences in my upcoming sermon and give you credit as I preach.

Would that be ok, brother? Just email or comment and let me know. I appreciate it!

I just want to ask permission first before using any of your material in my sermon. Derek, I was a “Believer” in Christ for quite some years, I worked in ministry and did missions trips and watched God do His work. I also was removed and banned from my position because of my sin. I also fell far away from the Lord after that for about 5 years and God humbled me to depths I never thought I’d know.

I knew Gods word and I knew what I was doing was wrong, but I never understood what true repentance from sin really was and how sin leads to death until a teaching by Robert Jeffress on TV. I have been what I call a “Follower” of Christ now for 6 months. I just want to be a written witness that sin will not only destroy you but can destroy a whole family, congregation, build hate in people and build hate toward yourself. Like you said, it just takes one thought with out repentance and seeking God to destroy that sin within you, to where you are in full blown sin. I still have issues and mess up daily, but I ask God to search my heart and remove those things from me.

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I just want to say thanks for posting this article, it has spoken volumes to me. May the Lord bless you the rest of your days here on Earth brother. Hello Bradley! Thank you for your testimony. You are not alone brother.

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I have been in your shoes too. There was a time in my life where I wasn’t even attempting to acknowledge God. I only fulfilled my own desires, and like you, God brought me trials that made me look back to Him. Our God is an awesome God because He loves us enough to let us go through pain, so we can really see God for who He is, the Healer. He will heal us from our sins if we simply ask Him. I’m so glad you are back on the straight and narrow path again!

Peace be with you and may God bless you as you continue to live a life worthy of His calling for you.Ps Senie. Hello,I’ve read the article and comments.1 John 3:4: Whosoever committeth sin transgresseth also the law: for sin is the transgression of the lawfor sin is the transgression of the lawsin is the transgression of the lawtransgression of the lawyou get it now?sin is the transgression of the law. Men, you stick with the law and don’t transgress it!Threre is of course much more valuable information on this topicbut ye cannot bear them now.

John 16:12Want to take a walk with me this way? Send me an email.G Cain. Please pray for my salvation because I’ve failed really bad!ealing food that I knew ok shouldn’t have been eating bc of really bad health problems. I really want to repent but dot know how my body and kids are sick bc I’ve failed in our health and just kept on eventually though I have been having serious problems with our health. I’m sorry but don’t know how to repent. Feels like I can’t bc were really sick and I’m the reason why bc I decided to focus on food rather than God now I’m scared I’m going to die over food and be separated from God forever I can’t heal myself or my kids I feel like the worst mom and biggest idiot on plant earth.

I hate sin but I love to eat but I feel like a murders bc I don’t know what to do but eat. Healthy foods and unhealthy foods has the same affect on my body!!!!! If God doesn’t send a miracle then I’m not sure how I’ll be able to repent and be saved and it’s driving me insane!!!!!!

All I think about is death and he’ll and that I really want to repent but can’t Can anyone pray to God For me and ask him what do you want Wiloria to do. Whatever He tells me I’d do it just plea don’t blot out my name from the book of life. Please pray that he’d heal us forgive me fill me with his spirit so can obey and walk in his ways!!!!!! I’m really shamefully sorry and I want to do right.