1 milli... = 1000 micro...
To convert millisieverts (mSv) to microsieverts (µSv), you multiply by 1,000, since 1 millisievert is equal to 1,000 microsieverts. Therefore, to convert 0.1 mSv to µSv, you calculate 0.1 mSv × 1,000 = 100 µSv. Thus, 0.1 millisievert is equivalent to 100 microsieverts.
To determine the number of prime numbers between 1 and 8888888888888888888888888888888888888888888888, we can use the Prime Number Theorem. This theorem states that the density of prime numbers around a large number n is approximately 1/ln(n). Therefore, the number of prime numbers between 1 and 8888888888888888888888888888888888888888888888 can be estimated by dividing ln(8888888888888888888888888888888888888888888888) by ln(2), which gives approximately 1.33 x 10^27 prime numbers.
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3 quarters 2 thirds 1 quarter 2 eighths which is the same as 1 quarter
1
To convert millisieverts (mSv) to microsieverts (µSv), you multiply by 1,000, since 1 millisievert is equal to 1,000 microsieverts. Therefore, to convert 0.1 mSv to µSv, you calculate 0.1 mSv × 1,000 = 100 µSv. Thus, 0.1 millisievert is equivalent to 100 microsieverts.
1 sievert is equal to 1000 millisieverts.
A millisievert (mSv) is a unit of measurement used to quantify radiation dose. It represents one-thousandth of a sievert, the standard unit for measuring radiation dose. The millisievert is commonly used to assess radiation exposure from medical procedures and environmental sources.
Receiving 1 microsievert of radiation in a short burst is considered very low and poses minimal danger to human health. It is a tiny amount compared to levels that could cause harm, such as a medical imaging scan which typically exposes a person to milli or microsieverts.
The term mSv is a Millisievert and the term mrem is a Millirem, both used in radiation to measure a dosage. 2.4 mSv is equal to 240 mrem.
1 Curie is defined as 3.7 x 1010 disintegrations per second, so a millicurie will be 3.7 x 107 dps (or Bequerels as it is now called). This is a total quantity, if you have a piece of material which produces this number of Bequerel it is said to be 1 millicurie of that material.In terms of counts per second perceived by a detector, it depends very much on the design of the detector. For example what is the solid angle subtended by the detector, what type of radiation is it detecting, what is its efficiency in detecting and counting the particles emitted? So there is no simple answer to the question.
To determine the number of prime numbers between 1 and 8888888888888888888888888888888888888888888888, we can use the Prime Number Theorem. This theorem states that the density of prime numbers around a large number n is approximately 1/ln(n). Therefore, the number of prime numbers between 1 and 8888888888888888888888888888888888888888888888 can be estimated by dividing ln(8888888888888888888888888888888888888888888888) by ln(2), which gives approximately 1.33 x 10^27 prime numbers.
The no. of entities that can be associated with another entity. For eg. 1-1, 1-many, many-1 and many-many
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1
You:1 You We:1 We Have:1 Have
Radiation dosage is measured in sieverts and millisieverts, replacing the old unit called the rem. Dosage is assessed in terms of relative damage to different parts of the human body, some being more sensitive to damage than others. Acceptable dose limits are recommended by the International Commission on Radiological Protection (ICRP) and should be observed by all countries involved, though there is no guarantee of that. The following is taken from the World Nuclear Association website (www.world-nuclear.org), which is believed to be compatible with ICRP advice. 100 millisievert/year...lowest level at which any increase in cancer is evident. Above this exposure probability of cancer increases with dose. 1000 millisievert cumulative...would probably cause a fatal cancer many years later in 5 percent of persons exposed. 1000 millisievert single dose...would cause temporary sickness such as nausea and decreased white cell count, but not death (but see above for long term effect) 5000 millisievert single dose... would cause death within one month of half those receiving it 10,000 millisievert single dose... fatal in a few weeks. Against the above which are all large doses, the average dose to US nuclear industry employees is quoted as 2.4 millisievert/year. so for a 40 year working life this amounts to 96 millisieverts cumulative. The current limit for nuclear industry employees is 20 millisieverts/year. (Not clear if this is in the US or world-wide, but it is presumably ICRP recommended).