general knowledge.
1.Who created the detective lord of Peter Wimsley ?
>Dorothy L.Sayers
2.The second of the Disney amusement parks opened on this date ? Where ?
>At Orlando Florida.
3.From what does Brazil get its name ?
>From the Brazilwood Tree.
4.What is "Diabolo" ?
>It is a juggling prop consisting of an axle and two cups of discs.
5."A thing of beauty is a joy forever" features in which of John Keats poem ?
> "Ode to a Grecian Urn"
>Dorothy L.Sayers
2.The second of the Disney amusement parks opened on this date ? Where ?
>At Orlando Florida.
3.From what does Brazil get its name ?
>From the Brazilwood Tree.
4.What is "Diabolo" ?
>It is a juggling prop consisting of an axle and two cups of discs.
5."A thing of beauty is a joy forever" features in which of John Keats poem ?
> "Ode to a Grecian Urn"
Answers.
HI Mr. Edison
11.What is the difference between CAD and CAM ???
> CAD and CAM are important tools in designing and manufacturing. Before the advent of computers and especially PC in the eighties, draftsmen performed important role in designing in companies. But computers changed the scenario completely. Their affordability and versatility allowed engineers to do drafting on their own. Today hand drafting for designing has become obsolete and the days of compasses and protractors are virtually over. CAD and CAM are important terms in the field of design and manufacture and refer to Computer Aided Design and Computer Aided Manufacture respectively.
CAD
CAD is the use of computers for designing in simple language. It is also known as CADD, which stands for computer aided design and drafting. In CAD, a wide range of computer based tools are used to assist engineers, architects and other design professionals in their design activities.
Originally CAD referred to computer aided drafting as it was a replacement of traditional drafting board. But today it is called designing to reflect the fact that much more can be done with the help of computers besides just drafting. CAD is usually employed when simple drafting is not able to do the job such as in design of automobiles, airplanes, ships and other industrial designs.
CAM
CAM is the use of computer based tools that assist engineers, tool and die makers and CNC machinists in the manufacture and prototyping of product components. While CAD has many functions that do not necessarily involve CAM, the same cannot be said about CAM, and in general, CAM is heavily dependent upon CAD.
Difference between CAD and CAM
CAD and CAM are both part of an over all important process that is referred to as computer aided engineering (CAE). CADS and CAM have similar advantages and they render items in 2D or 3D. Both CAD and CAM help in quick processing and production of any design that is conceptualized by a scientist. Most of the CAM machines have inbuilt CAD software.
The major difference between CAD and CAM lies in the end user. While CAM software is mostly used by an engineer, CAM is used by a trained machinist. These machinists are highly skilled and are equivalent to a computer engineer.
11.What is the difference between CAD and CAM ???
> CAD and CAM are important tools in designing and manufacturing. Before the advent of computers and especially PC in the eighties, draftsmen performed important role in designing in companies. But computers changed the scenario completely. Their affordability and versatility allowed engineers to do drafting on their own. Today hand drafting for designing has become obsolete and the days of compasses and protractors are virtually over. CAD and CAM are important terms in the field of design and manufacture and refer to Computer Aided Design and Computer Aided Manufacture respectively.
CAD
CAD is the use of computers for designing in simple language. It is also known as CADD, which stands for computer aided design and drafting. In CAD, a wide range of computer based tools are used to assist engineers, architects and other design professionals in their design activities.
Originally CAD referred to computer aided drafting as it was a replacement of traditional drafting board. But today it is called designing to reflect the fact that much more can be done with the help of computers besides just drafting. CAD is usually employed when simple drafting is not able to do the job such as in design of automobiles, airplanes, ships and other industrial designs.
CAM
CAM is the use of computer based tools that assist engineers, tool and die makers and CNC machinists in the manufacture and prototyping of product components. While CAD has many functions that do not necessarily involve CAM, the same cannot be said about CAM, and in general, CAM is heavily dependent upon CAD.
Difference between CAD and CAM
CAD and CAM are both part of an over all important process that is referred to as computer aided engineering (CAE). CADS and CAM have similar advantages and they render items in 2D or 3D. Both CAD and CAM help in quick processing and production of any design that is conceptualized by a scientist. Most of the CAM machines have inbuilt CAD software.
The major difference between CAD and CAM lies in the end user. While CAM software is mostly used by an engineer, CAM is used by a trained machinist. These machinists are highly skilled and are equivalent to a computer engineer.
Hi Tom
10.When is the international youth day and Earth day ?
>The international youth day is celebrated on August 12.
>Mother Earth day is celebrated on April 22.
10.When is the international youth day and Earth day ?
>The international youth day is celebrated on August 12.
>Mother Earth day is celebrated on April 22.
Hi Aby
9.How to control anger?
>see how to....
9.How to control anger?
>see how to....
HI ABY
8.HOW DID TITANIC SINK ?
>THIS IS HOW....
8.HOW DID TITANIC SINK ?
>THIS IS HOW....
Hi Aby
we received your question
7.Which is the first malayalam fim ?
>Balan.
we received your question
7.Which is the first malayalam fim ?
>Balan.
Hi Aby
we received your question..
6.what do you mean by siamese twins?
>Conjoined twins are identical twins[1] joined in utero. A rare phenomenon, the occurrence is estimated to range from 1 in 50,000 births to 1 in 200,000 births, with a somewhat higher incidence in Southwest Asia and Africa.[2] Approximately half are stillborn, and a smaller fraction of pairs born alive have abnormalities incompatible with life. The overall survival rate for conjoined twins is approximately 25%.[3] The condition is more frequently found among females, with a ratio of 3:1.[2]Two contradicting theories exist to explain the origins of conjoined twins. The older theory is fission, in which the fertilized egg splits partially. The second and more generally accepted theory is fusion, in which a fertilized egg completely separates, but stem cells (which search for similar cells) find like-stem cells on the other twin and fuse the twins together. Conjoined twins share a single common chorion, placenta, and amniotic sac, although these characteristics are not exclusive to conjoined twins as there are some monozygotic but non-conjoined twins that also share these structures in utero.[4]
The most famous pair of conjoined twins was Chang and Eng Bunker (Thai: อิน-จัน, In-Chan) (1811–1874), Thai brothers born in Siam, now Thailand. They travelled with P.T. Barnum's circus for many years and were billed as the Siamese Twins. Chang and Eng were joined by a band of flesh, cartilage, and their fused livers at the torso. In modern times, they could have been easily separated.[5] Due to the brothers' fame and the rarity of the condition, the term "Siamese twins" came to be used as a synonym for conjoined twins.[6]
we received your question..
6.what do you mean by siamese twins?
>Conjoined twins are identical twins[1] joined in utero. A rare phenomenon, the occurrence is estimated to range from 1 in 50,000 births to 1 in 200,000 births, with a somewhat higher incidence in Southwest Asia and Africa.[2] Approximately half are stillborn, and a smaller fraction of pairs born alive have abnormalities incompatible with life. The overall survival rate for conjoined twins is approximately 25%.[3] The condition is more frequently found among females, with a ratio of 3:1.[2]Two contradicting theories exist to explain the origins of conjoined twins. The older theory is fission, in which the fertilized egg splits partially. The second and more generally accepted theory is fusion, in which a fertilized egg completely separates, but stem cells (which search for similar cells) find like-stem cells on the other twin and fuse the twins together. Conjoined twins share a single common chorion, placenta, and amniotic sac, although these characteristics are not exclusive to conjoined twins as there are some monozygotic but non-conjoined twins that also share these structures in utero.[4]
The most famous pair of conjoined twins was Chang and Eng Bunker (Thai: อิน-จัน, In-Chan) (1811–1874), Thai brothers born in Siam, now Thailand. They travelled with P.T. Barnum's circus for many years and were billed as the Siamese Twins. Chang and Eng were joined by a band of flesh, cartilage, and their fused livers at the torso. In modern times, they could have been easily separated.[5] Due to the brothers' fame and the rarity of the condition, the term "Siamese twins" came to be used as a synonym for conjoined twins.[6]
Hi Aby
we received your question..
5.Do snakes fly?
>The image of airborne snakes may seem like the stuff of nightmares (or a certain Hollywood movie), but in the jungles of South and Southeast Asia it is reality. Flying snake is a misnomer, since, barring a strong updraft, these animals can’t actually gain altitude. They’re gliders, using the speed of free fall and contortions of their bodies to catch the air and generate lift.
Once thought to be more parachuters than gliders, recent scientific studies have revealed intricate details about how these limbless, tube-shaped creatures turn plummeting into piloting. To prepare for take-off, a flying snake will slither to the end of a branch, and dangle in a J shape. It propels itself from the branch with the lower half of its body, forms quickly into an S, and flattens to about twice its normal width, giving its normally round body a concave C shape, which can trap air. By undulating back and forth, the snake can actually make turns. Flying snakes are technically better gliders than their more popular mammalian equivalents, the flying squirrels.
There are five recognized species of flying snake, found from western India to the Indonesian archipelago. Knowledge of their behavior in the wild is limited, but they are thought to be highly arboreal, rarely descending from the canopy. The smallest species reach about 2 feet (61 centimeters) in length and the largest grow to 4 feet (1.2 meters).
Their diets are variable depending on their range, but they are known to eat rodents, lizards, frogs, birds, and bats. They are mildly venomous snakes, but their tiny, fixed rear fangs make them harmless to humans.
Scientists don’t know how often or exactly why flying snakes fly, but it’s likely they use their aerobatics to escape predators, to move from tree to tree without having to descend to the forest floor, and possibly even to hunt prey.
One species, the twin-barred tree snake, is thought to be rare in its range, but flying snakes are otherwise quite abundant and have no special conservation status.
we received your question..
5.Do snakes fly?
>The image of airborne snakes may seem like the stuff of nightmares (or a certain Hollywood movie), but in the jungles of South and Southeast Asia it is reality. Flying snake is a misnomer, since, barring a strong updraft, these animals can’t actually gain altitude. They’re gliders, using the speed of free fall and contortions of their bodies to catch the air and generate lift.
Once thought to be more parachuters than gliders, recent scientific studies have revealed intricate details about how these limbless, tube-shaped creatures turn plummeting into piloting. To prepare for take-off, a flying snake will slither to the end of a branch, and dangle in a J shape. It propels itself from the branch with the lower half of its body, forms quickly into an S, and flattens to about twice its normal width, giving its normally round body a concave C shape, which can trap air. By undulating back and forth, the snake can actually make turns. Flying snakes are technically better gliders than their more popular mammalian equivalents, the flying squirrels.
There are five recognized species of flying snake, found from western India to the Indonesian archipelago. Knowledge of their behavior in the wild is limited, but they are thought to be highly arboreal, rarely descending from the canopy. The smallest species reach about 2 feet (61 centimeters) in length and the largest grow to 4 feet (1.2 meters).
Their diets are variable depending on their range, but they are known to eat rodents, lizards, frogs, birds, and bats. They are mildly venomous snakes, but their tiny, fixed rear fangs make them harmless to humans.
Scientists don’t know how often or exactly why flying snakes fly, but it’s likely they use their aerobatics to escape predators, to move from tree to tree without having to descend to the forest floor, and possibly even to hunt prey.
One species, the twin-barred tree snake, is thought to be rare in its range, but flying snakes are otherwise quite abundant and have no special conservation status.
Hi Aby
we received your question..
4.Can earthquake be predicted?
>The answer is not actually....
Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong. Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong.Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong. According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
Thankyou for the question
-C.E.O Ozeka private
we received your question..
4.Can earthquake be predicted?
>The answer is not actually....
Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong. Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong.Experts from Japan, the Chinese mainland and Taiwan generally agree that earthquakes cannot be accurately predicted and forecasts are always proved wrong. According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
According to the Japan Meteorological Agency, given the current level of science and technology, earthquakes are very difficult - if not impossible - to predict with any accuracy.
Shinichi Sakai, a researcher at Tokyo University's Earthquake Research Institute, said, "We not only do research to estimate the possible time, site and magnitude of a potential earthquake by analyzing the seismic activity and other seismic precursors, but we also study the reasons and conditions of an earthquake and the possible problems may arise from it."
"Experts generally think earthquakes cannot be forecast at present," said Lu Wensheng, a professor from the Institute of Structural Engineering and Disaster Prevention at Shanghai's Tongji University.
"According to plate tectonic theory, an earthquake occurs when the earth's crust breaks under the stress created by the constant movement and collision of the tectonic plates," Lu said. "However, movement and collisions happen constantly, so it is difficult to know when they will shape a big enough malposition to trigger an earthquake."
Chen Qunce, a researcher at the Chinese Academy of Geological Sciences explained that earthquake prediction is mainly restricted by technology at the detection level. State-of-the-art monitoring systems cannot reach the depths in the earth's crust where earthquakes are triggered. Modern science has yet to find any basic regularity to the processes that cause earthquakes.
Since earthquakes cannot be predicted, good earthquake-resistant construction is essential for houses and buildings, said Guo Kaiwen, director of the Seismological Center of Taiwan's weather bureau.
"Statistically, it is possible for someone or some agency to correctly forecast the Wenchuan, Yushu or Lushan earthquake, but there are much more incorrect predictions," says Zhao Kechang, a professor at Peking University's School of Geoscience and Space Science.
"There are numerous forecasts online every day," said Zhao. "Because of the large number of predictions, some of them now and then happen to be correct, and they are always over-hyped."
In Taiwan, earthquake predictions are not published for fear of causing public panic, according to Guo Kaiwen. "If they violate the rule, they will be warned and even fined with NT$200,000 to 1 million ($6,785 to $33,927). But their forecasts can be sent to the Seismological Center."
"There were fewer predictions before the Sept 21, 1999 earthquake in Taiwan than usual," Guo added.
China's Law of Protecting Against and Mitigating Earthquake Disasters also requires that all predictions must be reported to the local earthquake prevention department. In addition, no agencies or individuals are allowed to make earthquake predictions public.
Thankyou for the question
-C.E.O Ozeka private
3.How do we cause tear when we peel an onion?
>Unless you've avoided cooking, you've probably cut up an onion and experienced the burning and tearing you get from the vapors. When you cut an onion, you break cells, releasing their contents. Amino acid sulfoxides form sulfenic acids. Enzymes that were kept separate now are free to mix with the sulfenic acids to produce propanethiol S-oxide, a volatile sulfur compound that wafts upward toward your eyes. This gas reacts with the water in your tears to form sulfuric acid. The sulfuric acid burns, stimulating your eyes to release more tears to wash the irritant away.
Cooking the onion inactivates the enzyme, so while the smell of cooked onions may be strong, it doesn't burn your eyes. Aside from wearing safety goggles or running a fan, you can keep from crying by refrigerating your onion before cutting it (slows reactions and changes the chemistry inside the onion) or by cutting the onion under water.
The sulfur-containing compounds also leave a characteristic odor on your fingers. You may be able to remove or reduce some of the smell by wiping your fingers on a stainless steel odor eater.
>Unless you've avoided cooking, you've probably cut up an onion and experienced the burning and tearing you get from the vapors. When you cut an onion, you break cells, releasing their contents. Amino acid sulfoxides form sulfenic acids. Enzymes that were kept separate now are free to mix with the sulfenic acids to produce propanethiol S-oxide, a volatile sulfur compound that wafts upward toward your eyes. This gas reacts with the water in your tears to form sulfuric acid. The sulfuric acid burns, stimulating your eyes to release more tears to wash the irritant away.
Cooking the onion inactivates the enzyme, so while the smell of cooked onions may be strong, it doesn't burn your eyes. Aside from wearing safety goggles or running a fan, you can keep from crying by refrigerating your onion before cutting it (slows reactions and changes the chemistry inside the onion) or by cutting the onion under water.
The sulfur-containing compounds also leave a characteristic odor on your fingers. You may be able to remove or reduce some of the smell by wiping your fingers on a stainless steel odor eater.
2.Who is the prensent cheif justice of india?
>P. SADA SIVAM
>P. SADA SIVAM
1.How do lizards walk on the wall ?
>Lizards have pads on their feet. These pads consist of wide plates or scales and are present below their fingers and toes. The outer layer of each plate or scale is composed of innumerable tiny hooks for-med by free, bent tips of cells. These minute hooks create the conditions like a suction pump and thus, enable lizards to run up on apparently smooth walls and even upside down on plaster ceilings.
Because these hook-like cells are bent downward and to the rear, the lizard curls its toes upwards to disengage them. Thus while walking or running on horizontal or vertical walls, a lizard curls and uncurls its toes thus creating a suction pressure which enables it to cling on to the walls.
>Lizards have pads on their feet. These pads consist of wide plates or scales and are present below their fingers and toes. The outer layer of each plate or scale is composed of innumerable tiny hooks for-med by free, bent tips of cells. These minute hooks create the conditions like a suction pump and thus, enable lizards to run up on apparently smooth walls and even upside down on plaster ceilings.
Because these hook-like cells are bent downward and to the rear, the lizard curls its toes upwards to disengage them. Thus while walking or running on horizontal or vertical walls, a lizard curls and uncurls its toes thus creating a suction pressure which enables it to cling on to the walls.