measure out ten feet of water, drop a rubber ducky, or some other floating object in the water. and then time it with a stopwatch ti see how long it takes to reach there. Then divide your data by ten to get the data in feet covered per second.
Speed and direction determine velocity
To determine velocity using time as a factor, you can use the formula: velocity distance / time. This means that you divide the distance traveled by the time it took to travel that distance. The resulting value will give you the velocity of the object.
The settling rate of the sand particles and the flow velocity of the stream are the two main factors that determine when the sand will settle out of the stream. Higher settling rates and lower flow velocities typically lead to quicker settling of the sand particles.
one factor is multiply accelaration per time
The carrying capacity of a stream is influenced by its discharge and velocity. A higher discharge and velocity typically allow a stream to transport larger sediments and materials downstream, increasing its carrying capacity. Conversely, lower discharge and velocity may limit the stream's ability to carry sediment and materials.
Speed and direction determine velocity
channel size<lies
To determine velocity using time as a factor, you can use the formula: velocity distance / time. This means that you divide the distance traveled by the time it took to travel that distance. The resulting value will give you the velocity of the object.
it is an instrument to determine the velocity of flow at required point in a flowing stream.
Two factors that determine the rate of stream erosion are the velocity of the water and the amount of sediment carried by the stream. Higher velocity and increased sediment load tend to enhance erosion by allowing the stream to transport more material and exert greater cutting force on the streambed.
The settling rate of the sand particles and the flow velocity of the stream are the two main factors that determine when the sand will settle out of the stream. Higher settling rates and lower flow velocities typically lead to quicker settling of the sand particles.
The competence of a stream is determined by the stream's velocity and the size of the sediment it can transport. Streams with higher velocities and larger sediment sizes are typically more competent and can transport larger particles.
A stream gauge is the instrument which is commonly used for the measurement of velocity stream.
Stream gradient, or the slope of the stream channel, affects stream velocity by influencing the speed at which water flows downstream. A steeper stream gradient typically results in a faster water flow velocity, as the force of gravity pulls water downhill more strongly. Conversely, a gentler stream gradient leads to slower water flow velocity.
The higher the velocity of the stream the larger carrying capacity it has.
one factor is multiply accelaration per time
The major factor that determines a stream's ability to erode land is the stream's velocity. Higher velocity streams have more energy and can pick up and transport larger sediment particles, leading to more erosion. Additionally, the volume of water in the stream and the presence of steep gradients can also influence erosion.