A student plots a graph from hs readings on the determination of Young modulus of a metal wire but forgets to put the labels figure. The quantities on X and Y axes may be respectively

A student plots a graph from his reading on the determination of Young's modulus of a metal wire but forgets to label. The quantities on X and Y may be respectively.

A student plots a graph from his reading on the determination of Young's modulus of a metal wire but forgets to label. The quantities on X and Y may be respectively.

A student plots a graph from his reading on the determination of Young's modulus of a metal wire but forgets to label. The quantities on X and Y may be respectively.

A student analyzed tha data from a zero order reaction and obtained the graph shown. What labels should be attached to the X and Y axes, respectively ?

A student performs an experiment to determine the Young's modulus of a wire, exactly 2m long, by Searle's method. In a partcular reading, the student measures the extension in the length of the wire to be 0.8mm with an uncertainty of +- 0.05mm at a load of exactly 1.0kg , the student also measures the diameter of the wire to be 04mm with an uncertainty of +-0.01mm . Take g=9.8m//s^(2) (exact). the Young's modulus obtained from the reading is

A student performs an experiment to determine the Young's modulus of a wire, exactly 2m long, by Searle's method. In a partcular reading, the student measures the extension in the length of the wire to be 0.8mm with an uncertainty of +- 0.05mm at a load of exactly 1.0kg , the student also measures the diameter of the wire to be 0.4mm with an uncertainty of +-0.01mm . Take g=9.8m//s^(2) (exact). the Young's modulus obtained from the reading is

A student performs an experiment to determine the Young's modulus of a wire, exactly 2m long, by Searle's method. In a partcular reading, the student measures the extension in the length of the wire to be 0.8mm with an uncertainty of +- 0.05mm at a load of exactly 1.0kg , the student also measures the diameter of the wire to be 04mm with an uncertainty of +-0.01mm . Take g=9.8m//s^(2) (exact). the Young's modulus obtained from the reading is

In an experiment on the determination of young's Modulus of a wire by Searle's method , following data is available: Normal length of the wire (L) = 110 cm Diameter of the wire (d) = 0.01 cm Elongation in the wire (l) = 0.125 cm This elongation is for a tension of 50 N . The least counts for corresponding quantities are 0.01 cm , 0.00005 cm, and 0.001 cm , respectively. Calculate the maximum error in calculating the value of Young's modulus (Y) .

In an experiment on the determination of young's Modulus of a wire by Searle's method , following data is available: Normal length of the wire (L) = 110 cm Diameter of the wire (d) = 0.01 cm Elongation in the wire (l) = 0.125 cm This elongation is for a tension of 50 N . The least counts for corresponding quantities are 0.01 cm , 0.00005 cm, and 0.001 cm , respectively. Calculate the maximum error in calculating the value of Young's modulus (Y) .

From the graph shown, the value of work function if the stopping potential (V) , and frequency of the incident light v are on y and x -axes respectively is