The velocity of radio waves is the speed of light, which is approximately 299,792 kilometers per second (186,282 miles per second) in a vacuum.
If u meant radio wave, then velocity of all electromagnetic wave is 3*108 m/s. Hence velocity of radio wave will be the same ,as it as an em wave, irrespective of its wavelength.
Speed = (frequency) x (wavelength) = (2) x (2) = 4 meters per second.There's not enough information to calculate 'velocity'.
If the velocity of an object is doubled, the momentum is also doubled. This is because momentum is directly proportional to velocity in a linear relationship. Therefore, doubling the velocity results in doubling the momentum.
four times. Kinetic energy is directly proportional to the square of the velocity of an object, so if the velocity is doubled, the kinetic energy will be four times greater.
The velocity gained by the aircraft in 4 seconds can be calculated using the formula: velocity = acceleration × time. Given acceleration of 3 m/s^2 and time of 4 seconds, the velocity gained by the aircraft would be 12 meters per second.
The velocity of visible light waves is the same as the velocity of radio waves in a vacuum, both traveling at the speed of light (approximately 299,792 kilometers per second).
No as they are both electromagnetic waves so have the same velocity but have differing wavelengths and frequencies.
If u meant radio wave, then velocity of all electromagnetic wave is 3*108 m/s. Hence velocity of radio wave will be the same ,as it as an em wave, irrespective of its wavelength.
-4
Multiply it by 4 (4 = 22)
In the case of constant velocity (or speed), velocity = distance / time.
8, 4
velocity
Say What - 2007 Radio Radio 1-4 was released on: USA: 17 November 2007
For the purposes of this explanation, velocity will be given in m/s. If it's starting position is the same as its stopping position, the radio controlled car will have an average velocity of zero meters per second. This is because average velocity is displacement/time interval. Displacement is change in position and is a vector quantity, which has magnitude and direction. Average velocity is the displacement/time interval, and is also a vector quantity, including the magnitude of the speed and its direction. If you start and stop walking at the same position, your displacement is 0m, even if you walked a distance of 100 miles, and your average velocity would be 0m/s. Refer to the related link below for an illustration.
Acceleration is observed when velocity changes with respect to time. For instance, at t0 an object may be moving with a velocity of 2. At t1, it could be moving with velocity of 4, which means that it has doubled its velocity; thus accelerating. This can also be observed in reverse, where at t0 the velocity is 4 and at t1 the velocity is 2. The object then has decelerated, or has slowed down with respect to change in time.
It is not possible to answer this question without the starting velocity.