The carbon-14 dating method is ineffective for dating dinosaur bones because it can only date organic materials that are up to about 50,000 years old. Dinosaurs went extinct approximately 65 million years ago, far beyond the range of carbon-14 dating. Instead, scientists typically use radiometric dating methods, such as uranium-lead or potassium-argon dating, to determine the age of dinosaur fossils and the surrounding rock layers.
Geologists cannot use the carbon-14 method to date igneous rocks and dinosaur bones because carbon-14 dating is effective only for organic materials and samples that are less than about 50,000 years old. Igneous rocks form from molten material and do not contain organic carbon, while dinosaur bones, though they are biological in origin, typically date back millions of years, far exceeding the maximum effective range of carbon-14 dating. Instead, other dating methods, such as uranium-lead or potassium-argon dating, are employed for these materials.
Geologists cannot use the carbon-14 method to date igneous rock because carbon-14 dating is effective only for organic materials, such as wood or bone, that contain carbon. Igneous rocks, formed from the cooling and solidification of magma or lava, do not contain organic carbon and therefore do not incorporate carbon-14 during their formation. Instead, geologists typically use radiometric dating methods involving isotopes of elements like uranium or potassium, which are suitable for dating the age of igneous rocks.
No, carbon cannot be hammered into shapes as it is a non-metallic element. However, carbon can be combined with other materials to form composites that can be shaped and molded.
Alkali metals like sodium and potassium are very reactive and have a strong tendency to form compounds with other elements. When carbon is used for reduction, it is not strong enough to overcome the reactivity of alkali metals and therefore cannot reduce them. Specialized methods using more reactive materials are needed to reduce alkali metals effectively.
Carbon 14 is absorbed by living organisms. When they die, they stop absorbing carbon 14 and the isotope then decays. Form the time of death of the organism, the quantity of C14, as a proportion of the total carbon in the organism declines and, measuring that decrease allows the age (or time of death) of the organism to be determined.
Geologists cannot use the carbon-14 method to date igneous rocks and dinosaur bones because carbon-14 dating is effective only for organic materials and samples that are less than about 50,000 years old. Igneous rocks form from molten material and do not contain organic carbon, while dinosaur bones, though they are biological in origin, typically date back millions of years, far exceeding the maximum effective range of carbon-14 dating. Instead, other dating methods, such as uranium-lead or potassium-argon dating, are employed for these materials.
yes they can becasue if the bones are hollw they cant fly
no they cant they will chock
the purpose of bones in the foot because if we didn't have any then we cant move or use our foot
those animal bones do not exist anymore
i think no because we have 206 bones in are body so we can't have less bones in are skeletal system we cant have less than 206 bones
Geologists cannot use the carbon-14 method to date igneous rock because carbon-14 dating is effective only for organic materials, such as wood or bone, that contain carbon. Igneous rocks, formed from the cooling and solidification of magma or lava, do not contain organic carbon and therefore do not incorporate carbon-14 during their formation. Instead, geologists typically use radiometric dating methods involving isotopes of elements like uranium or potassium, which are suitable for dating the age of igneous rocks.
No, we cant breath all of the gases for example we cant breath carbon dioxide
you cant
No, it cant
Berkelium
back bones help a cheetah run they cant get far when they dont have back bones. and as you know cheetahs are ONE of the fastest creatures on the planet so if they did'nt have back bones i would not have said that.