The smaller and lighter object will likely go faster, as it will accelerate more easily due to its lower mass. The force applied will result in a greater acceleration for the smaller object compared to the larger one.
In most cases, heavier things do not necessarily go faster than lighter things. The speed at which an object moves is typically determined by factors such as the force applied to it, the surface it is moving on, and air resistance. In some cases, heavier objects may have more momentum and be more difficult to stop once in motion, which can give the impression that they are moving faster.
No lighter things do not fall faster than heavier things. In a vacuum they will fall at the same speed. Normally the heavier thing will fall down faster because of its weight. Sometimes the lighter thing falls faster depending on the air resistance.
In a vacuum, all objects fall at the same rate regardless of their weight due to gravity. However, in real-world conditions with air resistance, lighter objects tend to fall slower than heavier objects because air resistance affects lighter objects more.
The lighter strings vibrate much faster than the heavier ones when the bow is drawn across them. This faster or higher frequency of vibration emits the higher pitched sound.
Assuming the balls have the same force applied to them, a smaller ball is typically able to travel faster than a larger ball due to its lower mass and reduced air resistance. Smaller objects often experience less drag and therefore can move more swiftly.
In most cases, heavier things do not necessarily go faster than lighter things. The speed at which an object moves is typically determined by factors such as the force applied to it, the surface it is moving on, and air resistance. In some cases, heavier objects may have more momentum and be more difficult to stop once in motion, which can give the impression that they are moving faster.
No lighter things do not fall faster than heavier things. In a vacuum they will fall at the same speed. Normally the heavier thing will fall down faster because of its weight. Sometimes the lighter thing falls faster depending on the air resistance.
In a vacuum, all objects fall at the same rate regardless of their weight due to gravity. However, in real-world conditions with air resistance, lighter objects tend to fall slower than heavier objects because air resistance affects lighter objects more.
It depends on the lorry, if it's heavier or carrying heavier things then it will have to travel slower. If it's lighter or carrying lighter things then it can travel faster.
A lighter car is not necessarily faster than a smaller car, as it depends upon the power of the vehicle. If the question is asking whether a smaller or lighter car is necessarily faster than a larger car, again the answer is "no". The larger car can easily be more powerful.
Yes, because the Friesian is lighter and the Clydesdale is heavier.
Chlorine diffuses faster than argon because it is a lighter and smaller molecule. This allows chlorine to move more quickly through a medium compared to argon, which is a heavier and larger molecule.
No, lighter gases effuse faster than heavier gases. This is because the rate of effusion is inversely proportional to the square root of the molar mass of the gas. Lighter gases have lower molar masses, which results in faster effusion speeds.
The Jaguar because its lighter and smaller
The lighter strings vibrate much faster than the heavier ones when the bow is drawn across them. This faster or higher frequency of vibration emits the higher pitched sound.
Heavier stars will usually burn faster than lighter stars.
The lighter the dragster is for its horsepower, the faster it will go. This is why the front frames and tires are so relatively flimsy.