If it is a short pendulum, then the leg or whatever you call it has a smaller distance to cover, and therefore can swing faster than a longer pendulum.
As it stands, it's uncertain who will sing the 'KC Undercover' theme song. It could be a number of bands, including 5 Seconds of Summer.
mA (millamps) x Time (seconds) = mAsmA Tube CurrentThe second control of the output of the x-ray tube is called the mA (milliamperage) control. This control determines how much current is allowed to flow through the filament which is the cathode side of the tube. If more current (and therefore more heating) is allowed to pass through the filament, more electrons will be available in the "space charge" for acceleration to the target and this will result in a greater flux of photons when the high voltage circuit is energized. The effect of the mA circuit is quite linear. If you want to double the number of "x" photons produced by the tube, you can do that by simply doubling the mA. Changing the number of photons produced will affect the blackness of the film but will not affect the film contrast.S TimeThe third control of the x-ray tube which is used for medical imaging is the exposure timer. This is usually denoted as an "S" (exposure time in seconds) and is combined with the mA control. The combined function is usually referred to as mAs or milliampere seconds so, if you wanted to give an exposure using 10 milliampere seconds you could use a 10 mA current with a 1.0 second exposure or a 20 mA current for a 0.5 second exposure or any combination of the two which would result in the number 10. Both of these factors and their combination affect the film in a linear way. That is, if you want to double film blackness you could just double the mAs.
Because if he does, than people will start spreading it around and call him every 2 seconds
nm is nano-meters. There will be a number preceding the nm. This number indicates how many nano-meters for a full wave length of the laser light.
i am pretty sure that its kanye wests song runaway 9:08 seconds is the longest one i could find
The length of the pendulum, the angular displacement of the pendulum and the force of gravity. The displacement can have a significant effect if it is not through a small angle.
no. it affects the period of the cycles.
Length of the rope, speed at which the pendulum is moving, friction between the rope and the air, the rope and its suspension point, and within the rope itself.
No. Only the length of the string and the value of g does.
The period of the pendulum can be influenced by the local magnitude of gravity, by the length of the string, and by the density of the material in the swinging rod (which influences the effective length).It's not affected by the weight of the bob, or by how far you pull it to the side before you let it go.
It's a pendulum. The length of the rope also influences the number of sways.
The shorter the pendulum the more swings you get.
The frequency of a pendulum is 1 divided by (the number of seconds to make one complete swing)
There's no relationship between the length of the pendulum and the number of swings.However, a shorter pendulum has a shorter period, i.e. the swings come more often.So a short pendulum has more swings than a long pendulum has in the same amountof time.
Yes. Period proportional to (Length)-2 is the fundamental property of the pendulum. The formula for the Period (1 complete swing), T, for a pendulum of length L is: T = 2*pi sqrt (L/g) (Oh for a library of symbols to avoid computer-code abbreviations!) T is in seconds, L in metres, g, the acceleration due to gravity, = 9.8m/s2 So for a given length, it is easy to work out the number of complete swings in 1 minute.
A shorter pendulum will make more swings per second. Or per minute. Or whatever.
1/v = 2pi sqrt(l/g)