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.
To make a mousetrap car that goes fast and far, ensure that it is lightweight with minimal friction. Use materials like balsa wood or light plastic for the body, and smooth wheels to reduce resistance. You can also increase the tension in the mousetrap and optimize the placement of the wheels for maximum distance and speed.
For something to accelerate or go faster, a force needs to be applied to it. When you walk, your shoe wants to slide on the sidewalk, but the friction from the tiny bumps on both surfaces creates resistance that prevents this, and you move forward. The sidewalk friction is actually pushing back on your shoe so you accelerate forward. Hope that helps.
To make a piece of paper fall slowly, you can crumple it into a loose ball or create an air resistance barrier underneath it by placing a mesh or netting. This will increase the surface area and air resistance, slowing down its descent. You can also gently drop it from a height to further reduce its speed.
To make an object move faster, you can increase the force applied to it, reduce the opposing forces like friction, aerodynamic drag, or gravity acting against it, and decrease its mass to allow for quicker acceleration. Additionally, optimizing the object's design for minimal resistance and increasing the energy input can also help in making it move faster.
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.
Whether an object falls quickly or slowly basically depends on its mass, and its air resistance. More mass will have the tendency to make things fall faster; more air resistance will have the tendency to slow it down. The air resistance depends, to a great extent, on the object's surface area; however, the shape of the object also plays a role.
the wind, the sail size, the resistance under water.
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The reduction of voltage or the increase of resistance will reduce the current in a circuit.
Wind tunnels are used to improve the streamlining of cars.The shape of a car can be made like a tear-drop or like an aeroplane wing to reduce air resistance. Sometimes a spoiler is fitted at the the back to improve the air flow making it more streamlined. Another way to reduce air resistance is to make the car closer to the ground.
Whatever moving object you have in mind the ways to reduce resistance are: Streamlining - remove projections if possible and make smooth and round if not Use low friction materials Reduce cross-sectional area of moving object
All forces make things move only if it is bigger than friction or resistance. In a vacuum (e.g. space), all forces make things move. But this is not reality.
You need to make it streamlined at the front so it cuts through the air therefore making it move faster.
Reduce air resistance (force of drag) by reducing the front-facing surface area.
To make a mousetrap car that goes fast and far, ensure that it is lightweight with minimal friction. Use materials like balsa wood or light plastic for the body, and smooth wheels to reduce resistance. You can also increase the tension in the mousetrap and optimize the placement of the wheels for maximum distance and speed.
To reduce work and make things more simple, and for sources of knowledge.
to reduce drag you must make your shape more streamlined and more aerodynamic this meaning reducing drag so that there is less resistance therefore creating speed