Yes, there is a stronger air resistance as you go faster. This is because at higher speeds, the air particles collide with the moving object more frequently, creating a greater resistance force opposing the object's motion.
Yes, as you go faster, air resistance (also known as drag) increases. This is because the faster you move, the more air molecules you encounter, causing more resistance. At high speeds, air resistance can become a significant force that can impact the movement of objects.
Gravity is typically stronger than air resistance. Gravity is a fundamental force that pulls objects towards each other, whereas air resistance is a type of friction that opposes the motion of an object moving through the air. This means that in most cases, gravity will have a greater impact on the motion of an object compared to air resistance.
Air resistance can limit how fast a car can go by creating drag, which pushes against the car as it moves forward. By reducing air resistance (for example, through aerodynamic design), the car experiences less drag and can move faster with less effort.
To reduce air resistance and make things go faster, you can streamline the shape of the object to minimize drag, such as making it more aerodynamic. You can also decrease the surface area exposed to the air by making the object smaller or smoother. Additionally, reducing the object's speed can help reduce air resistance.
If the force from the engine is greater than the air resistance, the object will accelerate in the direction of the engine's thrust. This will result in an increase in speed until a new equilibrium is reached where the air resistance balances out the force from the engine.
i think true.
Yes, as you go faster, air resistance (also known as drag) increases. This is because the faster you move, the more air molecules you encounter, causing more resistance. At high speeds, air resistance can become a significant force that can impact the movement of objects.
It increases
Gravity is typically stronger than air resistance. Gravity is a fundamental force that pulls objects towards each other, whereas air resistance is a type of friction that opposes the motion of an object moving through the air. This means that in most cases, gravity will have a greater impact on the motion of an object compared to air resistance.
To fight off air resistance and go faster. If the airplane had a flat nose, (like your palm) the air resistance would affect the nose and make the plane slower, while a pointy nose allows the air resistance to pass by therefore making the plane go faster.
If their is no air resistance, it will go faster and faster, at a rate of 9.8 (meters / second) / second.
To reduce air (or water) resistance. This allows them to go faster, or alternately, to save fuel.
Air resistance can limit how fast a car can go by creating drag, which pushes against the car as it moves forward. By reducing air resistance (for example, through aerodynamic design), the car experiences less drag and can move faster with less effort.
Because it's built that way. The faster you go, the greater the resistance from air drag becomes. So if you want to go real fast, you need a bike that's real slick to the air.
The parachutist will go down, of course. If gravity is greater than air resistance, then the parachutist would accelerate (his speed would increase). This would increase air resistance, up to the point where gravity and air resistance are in balance.
Making something streamlined reduces the air resistance on the object. So it won't have to work as a hard at high speeds and can therefore go faster.
To reduce air resistance and make things go faster, you can streamline the shape of the object to minimize drag, such as making it more aerodynamic. You can also decrease the surface area exposed to the air by making the object smaller or smoother. Additionally, reducing the object's speed can help reduce air resistance.