When weight is added to a rubber band, the band will stretch and elongate. If the weight exceeds the band's elasticity, it may eventually break.
If weight is added to a rubber band, it will stretch and elongate. The amount of stretch will depend on the elasticity and strength of the rubber band. Eventually, if too much weight is added, the rubber band may break.
The rubber band would stretch and elongate as the weight pulls on it, storing elastic potential energy. If the weight is too heavy, the rubber band may reach its elastic limit and eventually break.
Its density would be zero and if released it would float to the top of the atmosphere. On the other hand if you refer to a weight suspended by the band, the tension would reduce and the band would contract.
When weight is removed from a stretched rubber band, it will retract back to its original shape and size due to its elastic properties. The rubber band will return to its unstretched state as it tries to regain its initial resting position, which is why it snaps back when tension is released.
A rubber band is generally able to hold more weight before breaking compared to a string of the same thickness. This is because rubber bands have elasticity, allowing them to stretch and distribute the weight more evenly. Strings tend to be more rigid and can break more easily under tension.
If weight is added to a rubber band, it will stretch and elongate. The amount of stretch will depend on the elasticity and strength of the rubber band. Eventually, if too much weight is added, the rubber band may break.
The rubber band would stretch and elongate as the weight pulls on it, storing elastic potential energy. If the weight is too heavy, the rubber band may reach its elastic limit and eventually break.
Adding weight to a piece of crust could cause it to deform or sink further into the underlying mantle. This could lead to increased pressure and potentially trigger earthquakes or volcanic activity, especially if the added weight is significant.
Its density would be zero and if released it would float to the top of the atmosphere. On the other hand if you refer to a weight suspended by the band, the tension would reduce and the band would contract.
Its density would be zero and if released it would float to the top of the atmosphere. On the other hand if you refer to a weight suspended by the band, the tension would reduce and the band would contract.
When weight is removed from a stretched rubber band, it will retract back to its original shape and size due to its elastic properties. The rubber band will return to its unstretched state as it tries to regain its initial resting position, which is why it snaps back when tension is released.
nothing
it would pop
Nothing would "happen" to them, but they would glow less brightly.
You would have your lips stuck together until you somehow got it to unstick
It would apperntly choke and die if no one helps the baby....
if you added water to clam chowder it would taste really watery