Dating Quiz

Description

O>O>OLO<WSFJIWFJ STU-DYING
Ankita  A :)
Quiz by Ankita A :), updated more than 1 year ago
Ankita  A :)
Created by Ankita A :) almost 8 years ago
12
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Resource summary

Question 1

Question
Radioactive Decay ‐ The process in which a [blank_start]radioactive[blank_end] isotope tends to break down into a [blank_start]stable[blank_end] isotope of the same element or another element
Answer
  • radioactive
  • stable

Question 2

Question
Isotopes: Atoms of the same element that have the same number of [blank_start]protons[blank_end], but different numbers of [blank_start]electrons[blank_end]
Answer
  • protons
  • electrons
  • electrons
  • protons

Question 3

Question
[blank_start]Parent[blank_end] Isotope: Unstable radioactive isotope [blank_start]Daughter[blank_end] Isotope: Stable isotope produced by radioactive decay
Answer
  • Parent
  • Daughter

Question 4

Question
[blank_start]Half Life[blank_end]: the time that it takes one‐half of the parent material to decay
Answer
  • Half Life

Question 5

Question
[blank_start]Radiometric[blank_end] Dating: determining the absolute age of an event using the ratio of parent material to daughter material
Answer
  • Radiometric

Question 6

Question
Radiocarbon (carbon-14) *Limit = [blank_start]62000[blank_end] years *Dating [blank_start]organic[blank_end] materials
Answer
  • 62000
  • organic

Question 7

Question
Potassium-Argon *Used on [blank_start]oldest[blank_end] rocks
Answer
  • oldest

Question 8

Question
Rubidium-Strontium *Used on old [blank_start]igneous[blank_end] and [blank_start]metamorphic[blank_end] rocks
Answer
  • igneous
  • metamorphic

Question 9

Question
Uranium-Thorium *Dating [blank_start]ocean[blank_end] sediments
Answer
  • ocean

Question 10

Question
[blank_start]Relative[blank_end] Dating: Placing events in the sequence they happened [blank_start]Absolute[blank_end] Dating: Determining dates of events
Answer
  • Relative
  • Absolute

Question 11

Question
[blank_start]Cross Cutting Relationships[blank_end]: Igneous intrusions and faults are younger than the layers they cut across [blank_start]Law of Superposition[blank_end]: Younger rocks lie above older rocks [blank_start]Law of Original Horizontality[blank_end]: Sedimentary rocks are deposited in horizontal layers Unconformity: Layers of rock missing in the sequence due to erosion
Answer
  • Cross Cutting Relationships
  • Law of Superposition
  • Law of Original Horizontality
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