Increased surface area typically leads to more drag, which can slow down an object's velocity. This is because there is more area for air resistance to act upon. Therefore, increasing the surface area usually results in decreased velocity.
Air resistance is a type of friction that opposes the motion of objects through the air. It causes objects to slow down and results in a decrease in speed and an increase in the time it takes for an object to travel a certain distance. The amount of air resistance experienced by an object depends on its speed, shape, and surface area.
EXPLANATION:- We know that:- K.E = 1/2 m v^2 => K.E is directly proportional to the square of velocity. Conclusion:- If velocity becomes tripled than K.E. becomes Nine times to its initial value.
IF it changes to the completely opposite direction ... does a 180 or a "U-turn" ...then the velocity must be zero at that instant. But if the direction only changesby turning a corner or going around a bend, then there's no way to know whatthe velocity is without a lot more information.
That's like asking "What happens to the rain clouds if the street floods ?"The speed of a wave depends on the electrical or mechanical characteristics of themedium the wave is traveling through. It doesn't depend on the frequency or thewavelength, and you can't make a wave travel faster or slower by changing thefrequency or the wavelength.We can only handle the question if we forget all about independent and dependentvariables, as if, for example, we could infect a lot of people with a flu virus andcause the weather to turn cold.The formula for the speed of a wave is:Speed = (frequency) times (wavelength).From this, we can plainly see that if both the frequency and the wavelengthincrease somehow, and if the speed depends on them, then the speed mustalso increase.
The resistive forces of each of those types of friction except for fluid friction depend on both the normal force (exerted on the object by the surface that it's on) and the friction coefficient that corresponds to that type of friction. So naturally we'd increase the force of friction by increasing either or both of those factors. The friction coefficent can be increased by making the surfaces "rougher" so that more of the energy is lost by being turned into heat and/or sound. We can also increase the normal force to increase the force of friction. The most straightforward way is to make the object heavier so that the supporting surface pushes harder against the object, increasing the force of friction. It's important to know that the the normal force decreases when the surface becomes increasingly slanted. For example, an object dropped against a wall is not being held up by the surface at all so there's no normal force. So we can increase the force of friction by making sure that the surface is completely parallel to the ground. That way, the surface is supporting the entire force due to gravity acting on the object. We can also be extreme by changing the "apparent weight" of the object. If the object is on a surface that's accelerating upwards (like an elevator), the force of friction will be higher than normal because the surface will be pushing even harder against the object. For each of the individual friction types, there are some differences. Sliding and static friction are similar to each other. On the other hand, rolling friction often depends on internal friction in the wheel bearings. That's why bearings often use balls to minimize contact area and are well-lubricated. Fluid friction increases with velocity and depends on how viscous the fluid is. The exact relationship between velocity and drag depends a lot on the geometry and speed of the object.
that will increase the total surface area of the base of the shoe and thus will increase the friction force and this help a lot ex-specially on rainy day
It reacts with other chemicaps a lot faster because there are more particles readily available at one point in time for reactions to occur
The rate of dissolution of a solid is dependent on the surface area reaction. By crushing the cube, the surface area is greatly increased, thus increasing the rate of dissolution.
To increase the surface area of which the products of digestion can diffuse across (into the blood)
It has a lot of blood vessels, and a high surface area to mass ratio.
The endoplasmic reticulum (ER) has a lot of surface area due to its membrane structure, which folds and extends extensively throughout the cell. This large surface area allows for important cellular processes such as protein synthesis and lipid metabolism to occur efficiently.
It depends on a lot of stuffs like how much do you want your rocket to be stabile. But at least it must be 3. For example for the same stability you may have 3 fins that have large surface area or 4 which is smaller or more. When you increase the number of fins with the same surface area then the drag will increase because of the surface friction so 3 or 4 fins are generally used but there is no certain limit of the number of fins .
Neurons have greatly increased surface area due to their dendrites and axons. Intestinal cells have greatly increased surface area due to microvilli on the surface of the cells that help in absorption of nutrients.
In the intestinal wall, the villi (with micro-villi on them) are used to increase the surface area (just like the inside of your lungs do). This means that in the relatively small space, a lot of the nutrients in the food you eat can be absorbed by them and then diffused into the blood stream.
Surface area does not really affect temperature. It affects heat transfer. A car's radiator has thousands of fins that increase the surface area to increase heat transfer between the air and water. The radiator is a heat exchanger that follows the rules found here Based on heat transfer, surface area can indirectly affect temperature. If your house is surrounded by a paved road the temperature will not be as warm as if it were located in the center of a huge parking lot. The larger parking lot area can convert more radiant energy from the sun and release more to the air surrounding your house.
Because it has a lot of surface area for its weight.
It is because your body requires a lot of surface area for diffusion of gasses into the blood.