You are dating rocks by their proportions of parent isotope potassium-40(half life 1.25 billion years) and daughter isotope argon-40. Find the age for a rock that contains 3 times as much Argon-40 as potassium 40. Needs Complete solution with 100 % accuracy.
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You are dating rocks by their proportions of parent isotope potassium-40(half life 1.25 billion years) and daughter isotope argon-40.
Find the age for a rock that contains 3 times as much Argon-40 as potassium 40.
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- 3. The element tungsten (W) is important for Hf/W dating of core formation in rocky planets. Tungsten has lithophile and siderophile tendencies and will be distributed between the silicate and metallic portions of the Earth. The W concentration in Earth's mantle is 16 ppb (16 ng/g). Given D = 42 for metal/silicate partitioning, calculate the W concentration in Earth's core and in the bulk Earth. You can assume Ycore = 0.325 and = 0.675. The crustal contribution to Earth's tungsten inventory is negligible. YmantleA fossilized leaf contains 70% of its normal amount of carbon-14.(a) How old is the fossil? Use 5730 years as the half-life of carbon-14.(b) Using a graphing utility, graph the relation between the percentage of carbon-14 remaining and time.(c) Using INTERSECT, determine the time that elapses until one-fourth of the carbon-14 remains.(d) Verify the answer found in part (a).What are some strengths and limitations regarding the chronometric dating technique fission track dating?
- An ancient rock is found to contain 40Ar gas, indicating that of the 40K in the rock has decayed since the rock solidified. Any argon would have boiled out of liquid rock. The half-life of 40K is 1.25 billion years. How long ago did the rock solidify? O2.6 billion years 0.30 billion years O 1.8 billion years O 0.50 billion yearsSOME ISOTOPES USED FOR RADIOMETRIC DATING Daughter Isotope (D) Half-Lives (T½) Useful Dating Range Parent Isotope (P) Materials Dated Newly formed crystal Uranium-238 4.5 billion years Zircon 713 million years Zircon Lead-206 ages > 10 m.y. 100 Uranium-235 Lead-207 ages > 10 m.y. 0000000o o00000 15.9% decayed to daughter Potassium-40 Argon-40 Biotite, muscovite, whole volcanic rock 1.3 billion years ages > 50,000 yr Shells, limestone, organic materials ages 100-60,000 yr Carbon-14 Nitrogen-14 5730 years 84.1 29.3% decayed 70.7 Parent Atoms (P) 000000000e 50% decayed RADIOACTIVE DECAY 50.0 Daughter Atoms (D) 25.0 75% decayed 87.5% decayed 12.5 93.8% decayed 96.9% decayed 6.2 3.1 14 2 3 4 5 6 Half-Lives (T1) Elapsed DECAY PARAMETERS FOR ALL RADIOACTIVE DECAY PAIRS Percent of Parent Atoms (P) Percent of Daughter Atoms (D) Half-Lives Elapsed Age 0.000 x T 0.015 x T 0.031 x Ty 0.062 x Ty 0.125 x T 0.250 x T 0.500 x T2 1.000 x Ty2 100.0 0.0 98.9 1.1 1/64 97.9 2.1 1/32 95.8 4.2 1/16 91.7 8.3…The half life of a radioactive nucleus is 50 days. The time interval (tz – t1) between the time t, when of it 1 has decayed and the time t; when - of it had decayed is - (1) 50 days (2) 60 days (3) 15 days (4) 30 days
- EXAM=39&KE... et/pagebuilder/showPage.cfm?pagedef%3DexamContent&KEY_REG=76329&KEY_EXAM=39&KEY_STU_EX... Radioactive Decay Module 104 Questions completed: 5/10 Submit Exam Question 1 of 10 First Previous Next Last UNavigate unanswered questions only. Answer the question, then click Submit to save the answer. After you save this answer, you will be automatically taken to the next unanswered question in the exam. Objective Radioactive Decay - TJMOD104 1. The delivery of Tc-99m (6 hour half life) unit doses is delayed by a snowstorm for 30 minutes. Additionally, a patient is 15 minutes late. The unit dose is prepared and ready at 10:45, but the unit dose was prepared for a 10:00 delivery of 30 mCi. What is the activity and is the unit dose within 10% of 30 mci? O1) 32.5 mCi, yes O 2) 30 mCi, yes O 3) 27.5 mCi, yes O 4) 23.6 mCi, no O 5) It is impossible to determine with the given information - Questions adioactive Decay - TJMOD104 1. The delivery of Tc-99m (6 hour half life) unit doses is…A layer of peat beneath the glacial sediments of the last ice age has a carbon-14/carbon-12 ratio that is 21.2% of that found in living organisms. How long ago was this ice age?(19) Remains recovered in a tomb are found to have 72% of its Carbon-14 remaining. How old might this tomb be if the half-life of Carbon-14 is 5730 years? Group of answer choices A: 2716 yrs B: 3247 yrs C: 2952 yrs D: 1851 yrs E: 4157 yrs
- The carbon content of living trees includes a small proportion of C-14, which is a radioactive isotope. After a tree dies, the proportion of C-14 in it decreases due to radioactive decay.Suggest why the method of carbon dating is likely to be unreliable if a sample is:a) < 200 years oldb) > 60,000 years oldAssume that the rate of decay of a radioactive substance is proportional to the amount of the substance present. The half-life of a radioactive substance is the time it takes for one-half of the substance to disintegrate. Carbon dating is often used to determine the age of a fossil. For example, a humanoid skull was found in a cave in South Africa along with the remains of a campfire. Archaeologists believe the age of the skull to be the same age as the campfire. It is determined that only 2% of the original amount of carbon-14 remains in the burnt wood of the campfire. Complete parts (a) through (e) below.A robot spacecraft returned samples from the planetesimal 98765 ALEKS, located in the outer Solar System. Mass-spectroscopic analysis produced the following data on the isotopes of tin in these samples: isotope 118 "Sn 120 Sn Use these measurements to complete the entry for tin in the Periodic Table that would be used on 98765 ALEKS. Be sure your answers have the correct number of significant digits. Caution: your correct answer will have the same format but not necessarily the same numbers as the entry for tin in the Periodic Table we use here on Earth. 0 Sn mass relative (amu) abundance 117.9 54.% 0 119.9 Continue 46.% X S evee muuraw Hill LLC. All Rights Reserved. Submit Assignment Terms of Use | Privacy Center Accessibility