it makes wider which makes it bigger
Yes they can increase. They are increasing in their life time.
first you divide the number into 2 and then mulitply it by 1000. 1000 is representted in a kilometer. for example: 4,878 divide by 2=2816. then 2,816* 1000=2816000. you have to do this every time when making a amout in distance of a diameter of any shape into meters of a kilometer.
Factors that can increase the rate of diffusion include increasing the concentration gradient, increasing temperature, decreasing the distance for diffusion, increasing surface area, and reducing the size of the molecules diffusing. Factors that can decrease the rate of diffusion include decreasing the concentration gradient, decreasing temperature, increasing the distance for diffusion, decreasing surface area, and increasing the size of the molecules diffusing.
No, as in this case,the rod is the magnet,and the strength of a magnet does not depend on its size.
increase the size of the flame by turning the gas tap to increase the gas supply .does the luminous flame move about or is it steady?
It makes it wider which of course makes it bigger
cross sectional area for air resistance is greater as you increase the parachute size.
You reduce the diameter of the small piston. Or reduce the diameter and increase the travel of the small piston if you want the large piston to maintain it's previous range of travel.
In general, increasing the diameter of a piston will only increase the volume of fluid the pump will move. Increasing the stroke, however, will increase pressure. The piston will rise higher in the cylinder to more fully compress the volume of fluid contained.
the bigger the parachute the slower it falls. but, that is dangerous because it carries more so they try not to make them to big because one gust of wind could blow you a mile to 2 miles off course.
Yes they can increase. They are increasing in their life time.
The Universe is expanding, so its size is increasing.
The optimal diameter of a spill hole in a parachute typically ranges from 3 to 5 inches (7.5 to 12.5 cm), depending on the parachute's size and design. This diameter helps to regulate descent speed and stability by allowing excess air to escape, reducing the risk of oscillations and ensuring a controlled descent. Proper sizing is crucial for balancing descent rate and maneuverability during landing.
Depends what you mean by "better". A bigger parachute provides more wind resistant so if you were to jump out of a plane, you would want to go big. If your talking speed (like a running parachute) you would want a small parachute to accommodate how much harder you want to make your run
A larger parachute will result in more air resistance, slowing down the descent and increasing the time it takes to reach the ground compared to a smaller parachute. Conversely, a smaller parachute will experience less air resistance, allowing for a quicker descent and shorter time to reach the ground.
The length of the lines on a parachute can impact its performance in several ways. Longer lines can increase the amount of drag on the parachute, which can slow its descent. However, longer lines can also increase the risk of tangling or twisting during deployment. Additionally, longer lines can create more potential for oscillations or instability in the parachute system. Ultimately, the optimal line length for a parachute depends on various factors such as the size and design of the parachute, the intended use, and environmental conditions.
Increasing your sample size might help