Sycamore and goosegrass seeds are adapted for long-distance dispersal through mechanisms like wind or water, allowing them to travel further. Sycamore seeds have wing-like structures that enable them to glide on air currents, while goosegrass seeds can be carried by water or animals. In contrast, wallflower seeds are heavier and lack specialized structures for extensive dispersal, leading to a more localized distribution. This difference in seed morphology and dispersal strategies explains why sycamore and goosegrass seeds can travel further than wallflower seeds.
Chaff is lighter and has a larger surface area relative to its weight compared to other particles, so it gets caught in and carried by the wind more easily. This allows chaff to travel further distances when carried by the wind.
A ball is more likely to travel further on a dry day, as the air is less dense compared to a humid day. The higher density of humid air can create more air resistance, resulting in a shorter distance traveled by the ball.
The further a planet is from the sun, the longer its year is. This is because a planet's year is determined by how long it takes to complete one orbit around the sun, with larger orbits taking more time to complete.
Although interest in time travel exists globally, countries with strong science fiction cultures and traditions such as the United States, Japan, and the United Kingdom tend to have more interest in the concept of time travel. These countries have produced numerous books, movies, and TV shows centered around time travel, which further fuels interest in the topic.
Pigments travel at different rates in chromatography because of differences in their molecular size, polarity, and solubility in the solvent. Smaller, less polar pigments will travel further up the chromatography paper because they are less attracted to the stationary phase and can move more easily with the mobile phase.
Goosegrass seeds have adaptations that allow them to disperse over a wider range, such as barbs that easily attach to passing animals or clothing. Additionally, their seeds are small and lightweight, aiding in wind dispersal.
When the seed breaks from the sycamore tree, its 'wing' makes it spin, but also makes its decent slower. This means that it can move further away from its parent tree when it falls, especially if there is a breeze or some wind.
The seeds of a sycamore tree are called samaras. They are winged seeds that are dispersed by the wind. The samaras have a distinctive helicopter-like shape that helps them travel far from the parent tree.
Sycamore leaves spin primarily due to their unique shape and structure. The leaves have a broad, flat surface with a pointed tip, which creates an uneven weight distribution. When the wind catches these leaves, it causes them to rotate and spin as they fall, allowing them to glide and travel further from the parent tree. This spinning motion can help in seed dispersal and may also reduce the impact of falling on the ground.
Sycamore helicopter seeds have wings that spin as they fall, helping them travel far away from the tree and land in different places, allowing the tree to spread its seeds over a wide area.
Light does not travel further along power lines. What phenomenon are you describing?
A vacuum.
No
Most airplanes can travel further than helicopters.
The word further can be used as either an adjective or an adverb. As an adjective: the book is about the further adventures of Bill and Ted. As an adverb: you need to travel further.
The Texas Rule of Thumb is: The further you travel Northwest, the higher the elevation and lower the precipitation, the further you travel Southeast, the lower the elevation, and higher the precipitation.