half a mile
Fragments from a 1-pound explosion can potentially travel up to hundreds of feet, depending on factors such as the type of explosive used, the environment, and the presence of barriers. The size and weight of the fragments will also affect how far they can travel.
A gravity dropped nuclear bomb could fall several tens of thousands of feet from bomber to detonation. A ballistic missile's warhead could travel tens of thousands of miles from launch site to detonation.
The smallest fragments of an explosion can cause damage over a wide area due to the high velocity at which they are propelled. These fragments carry significant energy and can travel far from the point of detonation, impacting objects and structures in their path. Additionally, the sheer number of fragments generated in an explosion increases the likelihood of widespread damage.
The distance a nuclear blast can travel depends on the size and yield of the bomb. A typical atomic bomb can cause destruction within a radius of several miles, while more powerful thermonuclear weapons can have a destructive range of tens of miles. The effects of a nuclear blast also depend on factors such as weather conditions and geography.
The distance fragments can be propelled by 75 pounds of explosives depends on various factors such as the type of explosive, its placement, and the surrounding environment. Generally, explosives can propel fragments several hundred feet away.
they travel how far they want to
Tiny fragments can travel all the way around the earth from a 1-pound explosion.
Half a Mile
Fragments from a 1-pound explosion can potentially travel up to hundreds of feet, depending on factors such as the type of explosive used, the environment, and the presence of barriers. The size and weight of the fragments will also affect how far they can travel.
It can't go any where it can travel in an aeroplane.
About 1500 miles.
If the enemy is always moving then a smart bomb will have the power to chase down the enemy troop's butt no matter how far they travel, whilst a gravity bomb is just dropped instead of guiding itself into the enemy lands.
A gravity dropped nuclear bomb could fall several tens of thousands of feet from bomber to detonation. A ballistic missile's warhead could travel tens of thousands of miles from launch site to detonation.
The difference in how far DNA fragments move through an agarose gel is primarily influenced by their size. Smaller DNA fragments navigate through the porous matrix of the gel more easily than larger ones, allowing them to travel further in a given time. Additionally, the gel concentration can affect the mobility of the fragments; higher concentrations create smaller pores that hinder the movement of larger DNA. Overall, this size-dependent mobility is used in techniques like gel electrophoresis to separate DNA fragments for analysis.
The smallest fragments of an explosion can cause damage over a wide area due to the high velocity at which they are propelled. These fragments carry significant energy and can travel far from the point of detonation, impacting objects and structures in their path. Additionally, the sheer number of fragments generated in an explosion increases the likelihood of widespread damage.
Depending on the material, it will be 1/2 mile CBRNE - 1/2 mile
"Too far to travel for you"