Kinetic energy is used and also potential as it speeds up
Two characteristics that can make the velocity of an object change are the presence of an external force acting on the object and the object's mass. The direction and magnitude of the force, as well as the mass of the object, will influence how the velocity changes.
Some characteristics of motion that could change without changing the velocity of an object include acceleration, direction, and position. For example, an object moving in a circle at a constant speed has a changing acceleration (centripetal acceleration), changing direction, but constant velocity. Similarly, an object can change its position while maintaining a constant velocity if it moves along a straight path.
Terminal velocity is the constant speed reached by an object falling through a fluid, when the force of gravity is balanced by the drag force. The object stops accelerating and falls at a steady velocity. Terminal velocity depends on the mass, size, and shape of the object and the properties of the fluid it is falling through.
The velocity speed of a wave depends on the medium through which it is traveling and the characteristics of the wave itself, such as frequency and wavelength. In general, the velocity speed of a wave is determined by the medium's density, elasticity, and whether the wave is a transverse or longitudinal wave.
speed
Two characteristics that can make the velocity of an object change are the presence of an external force acting on the object and the object's mass. The direction and magnitude of the force, as well as the mass of the object, will influence how the velocity changes.
Some characteristics of motion that could change without changing the velocity of an object include acceleration, direction, and position. For example, an object moving in a circle at a constant speed has a changing acceleration (centripetal acceleration), changing direction, but constant velocity. Similarly, an object can change its position while maintaining a constant velocity if it moves along a straight path.
The characteristics of a sound wave is the Amplitude, Frequency, Wavelength, time period, and velocity. The sound wave itself is a longitudinal wave that shows the rarefactions and compressions of a sound wave.
Terminal velocity is the constant speed reached by an object falling through a fluid, when the force of gravity is balanced by the drag force. The object stops accelerating and falls at a steady velocity. Terminal velocity depends on the mass, size, and shape of the object and the properties of the fluid it is falling through.
The velocity speed of a wave depends on the medium through which it is traveling and the characteristics of the wave itself, such as frequency and wavelength. In general, the velocity speed of a wave is determined by the medium's density, elasticity, and whether the wave is a transverse or longitudinal wave.
The final velocity of the object would be less than its initial velocity, as some of the kinetic energy has been converted to potential energy. The exact final velocity would depend on the specific amounts of energy involved and the characteristics of the system.
speed
1.There must be a reference point (stationary object ) to describe the position of the given body. 2. The position of the given body must continuously change with time and with respect to the reference point.
Amplitude,frequency,wavelength and wave speed are the four characteristics of waves that can change...
The electrical characteristics of free space, and the direction the source is pointing.
Yes, it is possible to determine a planet's mass using the star's velocity curve caused by the planet's gravitational pull. The mass of the planet can be calculated by analyzing the changes in the star's velocity as it orbits due to the gravitational interaction with the planet. This can provide valuable information about the planet's characteristics and orbital dynamics.
The minimum stream velocity needed to carry a particle of sand depends on the size and weight of the sand particle, as well as the characteristics of the stream such as flow rate and turbulence. In general, for typical sand particles, a stream velocity of around 0.3 m/s to 1 m/s is needed to entrain and transport them.