The number of nodes and antinodes formed on a sonometer wire vibrating in second overtone are respectively.

Nickel (Z=28) combines with a uninegative monodentate ligand X^(-) to form a paramagnetic complex [NiX_4]^(2-) . The number of unpaired electron/s in the nickel and geometry of this complex ion are respectively _________.

A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21Å between them. The wavelength of the standing wave is

A transverse wave is produced on a stretched string 0.7 m long and fixed at its ends. Find speed of transverse wave , when it vibrates in emitting the second overtone of frequency 300Hz .

Two uniform wires of a the same material are vibrating under the same tension. If the first overtone of the first wire is equal to the second overtone of the second wire and radius of the first wire is twice the radius of the second wire, then the ratio of the lengths of the first wire to second wire is

In the determination if Young's modulus ((Y = (4MLg)/(pild^(2)) by using searle's method, a wire of length L=2m and diameter d=0.5mm is used. For a load M=2.5kg , an extension l=0.25mm in the length of the wire is observed. Quantites D and l are measured using a screw gauge and a micrometer, respectively. they have the same pitch of 0.5mm . the number of divisions on their circular scale is 100 . the contrubution to the maximum probable error of the Y measurement

When the length of the vibrating segment of a sonometer wire is increased by 1% the percentage change in its frequency is

Two wires of the same material and the same cross section are stretched on a sonometer in seccuession. Length of one wire is 60 cm and that of the other is 30 cm. An unknown load is applied to the first wire and second wire is loaded with 1.5 kg. if both the wires vibrate with the same fundamental frequencies, calculate the unknown load.

Assertion: An open organ pipe of certain length has the same fundamental frequency as closed organ pipe of half the length. Reason : In case of an open organ organ pipe, at both the ends antinodes are formed while in case of closed organ pipe, at one end antinode and at the other end node is formed.

A closed organ pipe of length L and an open organ pipe contain gass of densities rho_(1) and rho_(2) , respectively. The compressibility of gass are equal in both the pipes. Both the pipes are vibrating in their first overtone with same frequency . The length of the open orange pipe is