I cannot say about "lenght", but distance is a measure of length so length affects distance. Speed is the rate of change of distance (over time) so length affects speed.
Mass does not significantly affect speed or distance but, because they are affected by acceleration and acceleration is affected by mass (for a given force), then mass affects them.
Also, mass affects space time and the presence or absence of mass changes the lines along which distances are measured and so distances and speed are affected.
Wiki User
β 10y agoMomentum. Distance divided by time is speed. Mass times speed is momentum.
Speed times time equals distance
work = force * distance and force = mass * acceleration and acceleration = change in velosity/change in time so work = mass * acceleration * distance , as a result work = mass * change in velosity/change in time * distance, hence the velocity of the object affected by : 1.mass of the object. 2. gravitational acceleration which reduces the speed of the object when go up and increases the speed of the object when it come down.. 3. look at the rules etc........thx..............with best regards
You cannot. Kilograms are a measure of mass, yards are a measure of length or distance.
You cannot. Force is mass times acceleration. You have neither.
t bvv
Momentum. Distance divided by time is speed. Mass times speed is momentum.
Increasing the speed of an object does not affect that object's mass. Mass is an intrinsic property of an object and remains constant regardless of its speed.
If the planet increased its speed of rotation, we would not notice any difference in our weight. Weight is determined by gravity, which is determined by the mass of the planet and our distance from its center; the rotation speed does not affect this. However, it may affect other factors like the length of the day or climate patterns.
Lightyears
A quantity with only one measure is known as a scalar. Scalars have magnitude but no direction, such as distance, speed, and mass.
Mass does not affect distance. Distance is a scalar quantity that represents the space between two objects and is not influenced by the mass of those objects. The gravitational force between objects is determined by their masses and the distance between them.
The mass of a pendulum does not affect its speed. The speed at which a pendulum swings is determined by its length and the acceleration due to gravity. A heavier pendulum will have more inertia, which means it requires more force to set it in motion, but once it is in motion, its speed will be the same regardless of its mass.
No, the speed of an object cannot be determined solely by its mass and distance. Speed is calculated as the distance an object travels over a specific time period. To determine an object's speed, you would need to know both the distance it has traveled and the time it took to cover that distance.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
The two factors that affect gravitational force are the mass of the objects and the distance between them. Gravitational force increases with the mass of the objects and decreases with the distance between them.
Length is a fundamental quatity. But area is a derived one. Because area is nothing but the product of length and length. Volume too is a derived one as volume is length x length x length. Mass in fundamental. But density is mass / volume. Hence density is derived. Density is mass / lengthx lengthx length Same way time is fundamental . BUt speed is derived as speed is distance ie length divided by time. So speed is length/ time. Electric current is fundamental. But electric charge is a derived one as charge = current x time. Work done is derived as work is got right from mass x length x length / time x time. Why so? Force x distance gives work. Mass x acceleration = force. But acceleration = velocity/ time. In turn velocity = length / time. So acceleration is length / time x time Hence force mass x length / time x time THere by work mass x length x length / time x time.