The question as posed is incomplete.
Mass is an intrinsic property of an object. It relates to the atomic structure and in particular to the number of protons in the nucleus.
The weight of an object depends on the gravitational field the mass is exposed to when it is weighed. For example a given object will weigh one sixth as much on the moon as on earth because the gravitational field of the moon is one sixth of that on earth
Distance travelled implies that there is a velocity involved, which has not been stated in the question.
I wonder if the questioner is asking if there is a relationship between the mass of an object and the distance it can be thrown. And the answer is yes, but it requires more information such as the force with which it is thrown and the angle of elevation. Hope this helps.
The relationship between distance and time in the context of motion is described by the formula speed distance/time. This means that the speed at which an object moves is determined by the distance it travels divided by the time it takes to travel that distance. In general, the greater the distance traveled in a given amount of time, the faster the object is moving.
The relationship between sound distance and the perception of volume in a given environment is that as sound travels further away from the source, it tends to decrease in volume. This is due to the dispersion of sound waves over distance, resulting in a decrease in intensity and perceived loudness.
The distance in which a wave travels is known as wavelength. It is the distance between two consecutive points in a wave that are in phase.
The unit that measures the greatest distance is a light-year, which represents the distance that light travels in one year. This unit is frequently used in astronomy to measure vast distances between celestial objects.
The relationship between a car's speed and the distance it travels when thrown depends on various factors such as the initial velocity, angle of projection, air resistance, and friction. Generally, a higher initial speed will lead to a greater distance traveled if other factors remain constant. However, the relationship is not always linear and can be influenced by external variables.
The relationship between distance and time in the context of motion is described by the formula speed distance/time. This means that the speed at which an object moves is determined by the distance it travels divided by the time it takes to travel that distance. In general, the greater the distance traveled in a given amount of time, the faster the object is moving.
The relationship between sound distance and the perception of volume in a given environment is that as sound travels further away from the source, it tends to decrease in volume. This is due to the dispersion of sound waves over distance, resulting in a decrease in intensity and perceived loudness.
The distance in which a wave travels is known as wavelength. It is the distance between two consecutive points in a wave that are in phase.
A light year is a measure of distance and is the distance light travels in one year's time. The light year is used to describe the enormous distances between various objects in space. In one year, light travels about 6 trillion miles.
The unit that measures the greatest distance is a light-year, which represents the distance that light travels in one year. This unit is frequently used in astronomy to measure vast distances between celestial objects.
The relationship between a car's speed and the distance it travels when thrown depends on various factors such as the initial velocity, angle of projection, air resistance, and friction. Generally, a higher initial speed will lead to a greater distance traveled if other factors remain constant. However, the relationship is not always linear and can be influenced by external variables.
The distance a wave travels over time is called wavelength. It is the distance between two consecutive points in a wave that are in phase.
For objects falling under constant acceleration (such as gravity), the distance an object travels each second is determined by the formula d = 0.5 * a * t^2, where "d" is the distance, "a" is the acceleration, and "t" is the time in seconds. This means that the distance traveled each second will increase quadratically as time passes.
This distance is called the 'Thinking Distance'.
Scientists measure huge distances in space using units like light-years, which represent the distance that light travels in one year. This helps provide a more meaningful scale for understanding the vast distances between celestial objects.
The distance a baseball travels during a home run hit can vary, but it is typically between 350 to 450 feet.
The distance a piston travels within the cylinder is called the stroke. It is the distance between the top dead center (TDC) and the bottom dead center (BDC) positions of the piston.