A simple harmonic motion is represented ...

A simple harmonic motion is represented by x=10sin (20t+0.5) where x is in metre and t is in second. Find its amplitude, angular frequency, frequency and time period.

Topper's Solved these Questions

MECHANICAL PROPERTIES OF SOLIDS
R G PUBLICATION|Exercise EXERCISE|29 Videos
MODEL QUESTION PAPER 2
R G PUBLICATION|Exercise EXERCISE|40 Videos

Similar Questions

Explore conceptually related problems

A SHM is represented by y(t) =5 sin(20t+0.5) m where t is in S. What is amplitude and time period.

The equation of a wave is given by y=10cospi(2.0t-0.01x) ,where y and x are in cm and t in sec.Find (i)amplitude,(ii)frequency,(iii)wavelength and (iv)wave velocity.

A progressive wave is represented as y = 5 sin 2pi (20t - 2x) . Y and x are in meter an t is second. Calculate the wave length and frequency.

A harmonic oscillator is represented by x = 0.34 cos (3000 t + 0.74) mm. Find its amplitude, frequency, period and epoch.

A SHM is represented by y = 10 sin (10 t - (pi) /6) metres. Calculate its frequency, time period, maximum velocity and maximum acceleration.

The motion of a particle along x-axis is given by equation x = 9+ 5t^2 , where x is the distance in cm and t is time in second. Find the displacement after 3 seconds.

The motion of a particle along x-axis is given by equation x = 9+ 5t^2 , where x is the distance in cm and t is time in second. Find instantaneous velocity after 3 seconds

The distance x of a particle moving in one dimension, under the action of constant force is related to time t by equation. t = sqrt x + 3 where x in metre and t in second. Find the displacement of the particle when its velicity is zero.

The electric field of an e.m. wave is given by E_y= 40sin((2pi)/2x-2pixx10^8t) where E is in V//m , t in seconds, and x is in meters. Find Frequency of the e.m. wave.

The displacement of a wave is represented by y=0.25xx10^-3sin(500t-0.025x) ,where y,t and x are represented in cm, sec and cm respectively. Calculate (i)amplitude,(ii)time period,(iii)angular frequency and (iv)wave length.

R G PUBLICATION-MODEL QUESTION PAPER 1-Exercise

Write the three necessary conditions for a satellite to be geostationa...
Text Solution
|
Write the significance of negative total eneragy of a satellite?
Text Solution
|
What is anomalous expansion of water?
Text Solution
|
How does surface tention change with temperature?
Text Solution
|
Calculate the amount of heat required to vaporise 1g of ice initially ...
Text Solution
|
Write the basic difference between liquid and gas.
Text Solution
|
What is surface tension of a liquid ? Show that the surface tension o...
Text Solution
|
Derive Stockes' law by dimensional analysis.
Text Solution
|
What do you mean by breaking stress? The breaking stress for a metal i...
Text Solution
|
Why does a gas not posses a single specific heat? Explain why Cp' is g...
Text Solution
|
Three moles of an ideal gas at a constant temperature of 300 K is comp...
Text Solution
|
An ideal gas is taken through the cycle ArarrBrarrCrarrA' as shown. If...
Text Solution
|
State the law of equipartition of energy.
Text Solution
|
At what temperature is the rms velocity of a hydrogen molecule equal t...
Text Solution
|
Explain the kinetic interpretation of temperature
Text Solution
|
A simple harmonic motion is represented by x=10sin (20t+0.5) where x i...
Text Solution
|
Two springs are connected in parallel as shown. If the mass is displac...
Text Solution
|
Describe the first and second mode of vibrations of an open organ pipe...
Text Solution
|
A metal wire of linear mass density of 9.8 gm^-1 is stretched with a t...
Text Solution
|
Define free oscillation demped oscillation and forced oscillation.
Text Solution
|