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What is the equation for frequency density?
frequency density = frequency/group width
How do you work out frequency from a frequecny density histogram?
class width times frequency density gives you the frequency
How do you find the frequency and frequency density on a histogram when you are only given the class width?
To calculate the frequency density we will simply divide the frequency by the class width.
How do you calculate the frequency density in a histogram?
Frequency density= Frequency/Class width So shut ur mouth whoever is reading this!
What factors decide the frequency of vibration of plucked string?
The four properties of the string that affect its frequency are length, diameter, tension and density. These properties are- When the length of a string is changed, it will vibrate with a different frequency. Shorter strings have higher frequency and therefore higher pitch.
What factors decides frequency of vibration of a plucked string?
The four properties of the string that affect its frequency are length, diameter, tension and density. These properties are- When the length of a string is changed, it will vibrate with a different frequency. Shorter strings have higher frequency and therefore higher pitch.
What factors decide the frequency of vibrations of a plucked string?
The four properties of the string that affect its frequency are length, diameter, tension and density. These properties are- When the length of a string is changed, it will vibrate with a different frequency. Shorter strings have higher frequency and therefore higher pitch.
Does frequency density divided by class width equals frequency?
No.
How do you work out the frequency for a histogram?
Frequency Density multiplied by the class width
Can you have decimals on frequency density?
Yes.
What factors decide the frequency of vibration of a plucked string?
The four properties of the string that affect its frequency are length, diameter, tension and density. These properties are- When the length of a string is changed, it will vibrate with a different frequency. Shorter strings have higher frequency and therefore higher pitch.
What is the relationship between density and frequency?
Frequency is equal to inverse of the square root of density. As the frequency of a string for example goes up the density will go down but in a non-linear fashion. That is to create higher and higher frequencies less and less density decreases are required.
