Wiki User
∙ 12y ago0.447 x 63 = 28.161
Wiki User
∙ 12y agoYou can't convert between seconds, and meters/second. If you have a problem that involves speeds, use the formula: distance = speed x time.
It would take the signal 0.1 seconds to travel 3 metres, given the parameters that you have given.
per second per second is taken with the context of how an object is changing its acceleration. An object accelerates by speeding up or slowing down. If an object speeds up, it could speed up at a rate of 5 meters per hour, let's say, every second. So after one second, its speed is 5 mph; after two seconds, its speed is 10 mph and so forth. If an object's speed is increasing at 5 meters a second, then its speed is 5 meters per second the first second; 10 meters per second the second second and so forth. We would say the object's acceleration is 10 meters per second / per second.AnswerIt has to do with speed,the time an object falls from a given height is calculated in seconds per second( it fell in less than a second)
It's impossible to say except statistically. Statistically, it will move 5 meters (obviously). In actual practice, during any given second it might not move at all, or it might move almost 300,000 km.
If a car is moving 42 meters per second after 6 sectons, the average acceletion is 7 meters per second per second. It is an average, given two points of data, and it is not the instantaneous acceleration at any point in time.
The frequency of a wave is given by the formula: frequency = speed / wavelength. In this case, the wavelength is 15 meters and the speed is 250 meters per second. Therefore, the frequency of the 15 meter wave traveling at 250 meters per second would be 250 / 15 = 16.67 Hz.
Because if the given is meter the answer is second and when the given is seconds the answer is meters
Velocity, the units are meters per second, or feet per second.
The wavelength of the wave can be calculated using the formula: wavelength = speed of wave / frequency. Plugging in the values given - speed of 90 m/s and frequency of 60 Hz - the wavelength would be 1.5 meters.
The distance sound travels in a given time depends on the speed of sound in the medium it is traveling through. In general, sound travels about 343 meters per second in air at room temperature. Therefore, it would travel approximately 1372 meters in 4 seconds.
You can't convert between seconds, and meters/second. If you have a problem that involves speeds, use the formula: distance = speed x time.
In physics, the net force is measured in Newton. The formula for net force is given as the mass times the acceleration. The mass is given in kilograms (kg), and the acceleration is measured in meters per second squared. A Newton is equivalent to a kilogram-meters per second squared.
The speed of a wave can be calculated using the formula: speed = frequency × wavelength. Given a frequency of 3 Hz and a wavelength of 8 meters, the speed of the wave would be 24 meters per second.
To find the average speed in meters per second, we first convert 1050 mph to meters per second. Given that 1 mile is equal to 1609.34 meters and 1 hour is equal to 3600 seconds, we can convert mph to meters per second. The average speed of N2 molecules in air at 20 degrees Celsius is approximately 469 meters per second.
It would take the signal 0.1 seconds to travel 3 metres, given the parameters that you have given.
To calculate the G-force experienced by an object with only the acceleration given, you can use the formula G-force = acceleration / 9.81 m/s^2. Dividing the acceleration value by the acceleration due to gravity (9.81 m/s^2) gives you the G-force experienced by the object.
100 km per what time? speed is not given. Assume speed = 100 km/hour Then in 2 seconds you travel: 100 km/h = 100000/3600 m/second = 1000/36 meter/second in 2 seconds you travel 2000/36 meters = 500/9 meters = 55.6 meters