Geologic Time



Geologic Time

Chapter 17 section 1

(This is transcribed from a Prentice Hall

read only slide show)

Geologic Time Scale:

|Slide Number |Information |

|761 |To understand Earth, it is important to realize that our planet is very old. |

|762 |Modern methods of radiometric dating put Earth’s age at 4.5 billion years. |

|763 |This immense time span is hard to comprehend. Guess about how long it would |

| |take just to count to 4.5 billion if you could count one number per second |

| |without stopping. 150 years |

|764 |An appreciation for the magnitude of geologic time is important because many of|

| |Earth’s processes are so gradual that vast spans of time are needed for |

| |significant changes to occur. |

|765 |It took millions of years to create these mountains and it will take millions |

| |more to wear them away. |

|766 |Geologists have divided all of Earth history into units of varying magnitude. |

| |Together they comprise the geologic time scale. |

|767 |The time scale provides a framework for arranging events of the geologic past. |

|768 |Eon represents the greatest expanses of time. |

|769 |The eon that began about 540 million years ago is called the Phanerozoic, Greek|

| |for “visible life”. |

|770 |The sedimentary rocks and deposits of Phanerozoic eon contain an abundance of |

| |fossils. |

|771 |The Phanerozoic eon is divided into units called eras. |

|772 |The era names refer to import differences in dominant life-forms. |

| |Paleozoic refers to ancient life. Example Trilobite fossils. |

| |Mesozoic refers to middle life. |

| |Cenozoic refers to recent life. |

|773 |Each era is divided into smaller units called periods. |

|774 |The changing fossil record also played an important part in establishing each |

| |of the periods. |

|775 |Periods may be divided into epochs. Seven epochs are names for the periods of |

| |the Cenozoic era. |

|776 |The epochs of other periods usually are just termed early, middle, and late. |

|777 |The Pleistocene epoch, which ended just 10,000 years ago, coincides with a time|

| |span commonly known as the ice age. |

|778 |The detail on the time scale does not begin until about 540 million years ago, |

| |the date for the start of the Cambrian Period. |

|779 |The vast expanse of time prior to the Cambrian Period is divided into three |

| |eons-the Hadean, the Archean, and the Proterozoic. |

|780[pic] |This greater than 4 billion-year span is also commonly called the Precambrian. |

|781 |About what percent of Earth’s 4.5 billion-year history is represented by |

| |Precambrian time? 88% |

|782 |Why are the eons of Precambrian time not divided into numerous eras and |

| |periods? |

|783 |One reason is that Precambrian life was soft-bodied and therefore the fossil |

| |record is meager compared to the Phanerozoic eon. |

|784 |In addition, much of the Precambrian rock record is buried beneath younger |

| |rocks and/or altered by metamorphism. |

| |The Grand Canyon’s ancient Vishnu schist is buried beneath a huge pile of |

| |Paleozoic rocks. |

|785 |Which is the greatest expanse of time? eon |

|786 |Which is a subdivision of an epoch? None of these |

|787 |Mesozoic is an example of era. |

|788 |Eons are divided into these era. |

|789 |Which is the smallest time span on the geologic time scale? epoch |

|790 |Cambrian and Jurassic are examples of period. |

|791 |The age of the Earth is about: 4.5 billion years |

|792 |The Phanerozoic eon began about years ago. |

| | |

|793 |We are presently living in the Cenozoic era. |

|794 |The Hadean, Archean, and Proterozoic are: eons that collectively comprise the |

| |Precambrian. |

|795 |Which era of the Phanerozoic eon has the most periods? Paleozoic |

| | |

| |Eocene, Pleistocene, and Holocene are examples of: epochs |

|796 | |

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