What is the maximum number of rectangular components into which a… - Vidyadip

Question

What is the maximum number of rectangular components into which a vector can be split in space?

✓

Answer

The number of rectangular components into which a vector can be splitted in space is three as our space is three-dimensional.

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

NEET STD 11 Science question papers→Gujarat Board STD 11 Science question papers→Gujarat Board question paper generator→

Similar questions

$4 eV$ is the energy of the incident photon and the work function in $2eV.$ What is the stopping potential ............. $V$

The rate of disintegration was observed to be ${10^{17}}$ disintegrations per sec when its half life period is $1445$ years. The original number of particles are

A projectile is thrown with velocity $v$ at an angle $\theta$ with horizontal. When the projectile is at a height equal to half of the maximum height, the vertical component of the velocity of projectile is ...........

In hydrogen spectrum the wavelength of ${H_\alpha }$ line is $656 nm $ whereas in the spectrum of a distant galaxy, ${H_\alpha }$ line wavelength is $706 nm$ . Estimated speed of the galaxy with respect to earth is

A fish rising vertically upward with a uniform velocity of $8\,ms ^{-1}$, observes that a bird is diving vertically downward towards the fish with the velocity of $12\,ms ^{-1}$. If the refractive index of water is $\frac{4}{3}$, then the actual velocity of the diving bird to pick the fish, will be $.......\,ms ^{-1}$.

A circuit to verify $Ohm's$ law uses ammeter and voltmeter in series or parallel connected correctly to the resistor. In the circuit

Three waves of equal frequency having amplitudes $10\, \mu m, 4\, \mu m$ and $7\, \mu m$ arrive at a given point with successive phase difference of $\pi/2$. The amplitude of the resulting wave in $\mu m$ is given by

A particle of mass $m$ is projected with velocity $v$ making an angle of $45^o $ with the horizontal. When the particle lands on the level ground the magnitude of the change in its momentum will be

The wavelength of the most energetic $X-$ ray emitted when a metal target is bombarded by $100 KeV$ electrons is approximately.......$\mathop A\limits^o $

To prepare a print the time taken is $5\, sec$ due to lamp of $60\, watt$ at $0.25\, m $ distance. If the distance is increased to $40 \,cm$ then what is the time taken to prepare the similar print......$sec$