t = 100 s
Recalling that speed or velocity's magnitude v is equal to distance (or displacement)
x divided by time t taken to cover that distance: v = x/t, then t = x/v.
For this case we have:
x = 34 km = 34 000 m
v = 340 m/s
So we get:
t = (34 000 m)/(340 m/s) = 100 s
In three days, light travels 4.82843973 × 10^10 miles.
Yes, the speed of sound is significantly affected by the medium it travels through. Sound travels faster in solids than in liquids, and faster in liquids than in gases due to differences in density and elasticity. For example, sound travels at about 343 meters per second in air, but can reach approximately 5,960 meters per second in steel. Factors such as temperature and pressure also influence sound speed within a given medium.
The speed of light in a vacuum is 186282.397 miles per second.The distance something travels in a given time and at constant speed is given byd = s*twhere d is the distance traveled, s is the speed, and t is the time.In our case, s = 186282.397 miles per second and t= 100 seconds.d = (186282.397 miles per second)*(100 seconds) = 18628239.7 milesSo, in 100 seconds, light travels 18628239.7 miles.
The speed of a wave is given by the equation speed = frequency x wavelength. If a 340 Hz sound wave travels at 340 meters per second, then its wavelength is 1 meter (Option D) because 340 Hz x 1 m = 340 m/s.
Speed in waves is typically measured by calculating the distance a wave travels in a given amount of time. The speed of a wave is often expressed in meters per second or kilometers per hour. It can be affected by factors such as the wavelength and frequency of the wave.
The name given to the sound made by a shock wave is a "sonic boom." This occurs when an object travels through the air faster than the speed of sound, creating a loud noise similar to an explosion.
With the information given, all that can be said is that the distance is greater than the distance the object traveled in the previous second.
The way heat travels through water is called conduction. This process occurs when heat energy is transferred from one part of the water to another by direct contact.
In three days, light travels 4.82843973 × 10^10 miles.
Velocity is distance per unit time, it is measured in meter per second. (m/s)
It would take the signal 0.1 seconds to travel 3 metres, given the parameters that you have given.
speed
The speed of light in a vacuum is 186282.397 miles per second.The distance something travels in a given time and at constant speed is given byd = s*twhere d is the distance traveled, s is the speed, and t is the time.In our case, s = 186282.397 miles per second and t= 100 seconds.d = (186282.397 miles per second)*(100 seconds) = 18628239.7 milesSo, in 100 seconds, light travels 18628239.7 miles.
There is not enough information to answer the question. The initial velocity of the car is not given. Also, the "it finally" at the end of the question does not make sense.
- a mixture of gases is obtained - at a given temperature and a given ratio gas1/gas2 an explosion is possible
We call the distance the wave travels in a given amount of time its wavelength. This term is commonly used in physics to describe the spatial period of a wave.
this occurs in an exothermic reaction