Distance is measured in meters, wind resistance does not come into it
The mutual force of gravitational attraction between any two masses is proportional; tothe square of the distance between their centers.When an object is moved twice as far from the planet's center, the force between themdecreases to 1/22 = 1/4 of its original magnitude.
Velocity is the speed something travels, so if anything travels at a higher rate of speed, the impact will be greater. No matter what the material speeding may appear to be, it will always impact harder with greater velocity. It's like shooting a paintball up close to a wall. The impact will be far harder than at long range, and a large splatter will appear on the wall. That's velocity for yah!
The distance something travels depends on factors such as speed, time, and direction. It can range from a few centimeters to thousands of kilometers, depending on these variables.
Mass is a measure of the amount of matter in an object, weight is the force exerted on an object due to gravity, and force is a push or pull on an object. In the context of Earth's gravity, an object's weight is directly proportional to its mass, because weight is the force resulting from the gravitational pull on an object's mass.
In a vaccum, different objects have no terminal velocity... the further they fall, the faster they go. So, "air drag" is what provides differing terminal velocities, and the object's shape and weight distribution controls that drag.
i dont no im asking yall
Oh, dude, totally! Weight totally affects how far an object travels. Like, imagine trying to throw a feather and a bowling ball, right? The bowling ball is gonna go way farther 'cause it's heavier and has more force behind it. So, yeah, weight totally plays a role in how far stuff goes.
In zero gravity, the mass of an object does not effect the distance an object travels at all unless there is a constent force acting upon it. However, if it is in contact with another object, and gravity is what keeps the 2 or more objects touching each other, then mass will effect the distance it travels because of friction.
The greater the mass of an object, the shorter the distance it will travel when catapulted. This is because a heavier object requires more force to launch it, which can reduce the distance it travels compared to a lighter object with the same launch force.
Hit it harder, it goes further. That is to say that force is directly proportional to the distance travelled.
The weight of an object on a catapult affects how far it goes by influencing the force needed to launch it. A heavier object requires more force to be launched, which can impact the distance it travels. In general, a lighter object will be easier to launch and may reach further distances compared to a heavier object.
in simple terms yes it does effect how far an object travels but it depends how it is traveling what gravity its traveling in and so on.
the object's "speed".(not 'velocity')
Light travels an infinite distance until it is absorbed by an object.
the distance
By laws of physics, the angle at which something is launched into the air affects how far it will travel. Not taking into account air resistance, 45 degrees would be the ideal angle for maximum distance.
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