Somehow, an ant is stuck to the rim of a bicycle wheel of diameter 1 m. While the bicycle is on a central stand, the wheel is set into rotation and it attains the frequency of 2 rev/s in 10 seconds, with uniform angular acceleration. Calculate (i) Number of revolutions completed by the ant in these 10 seconds. (i) Time taken by it for first complete revolution and the last complete revolution
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Answers
Given :
- Diameter = 1m ∴ Radius (r) = 0.5 m
- After 10 seconds, frequency (n) = 2 rev/s
To find :
- Number of revolutions completed by ant in 10 seconds
- Time taken for first revolution
- Time taken for last revolution
Solution :
- The ant is stuck to the rim of the wheel. Hence revolutions completed by wheel will be same as that completed by the ant.
- n = 2 rev/s
∴ ω = 4π rad/s ....(angular velocity)
- Initially, the wheel is at rest. ∴ ω₀ = 0
- It is then uniformly accelerated. Hence using laws of motion,
ω = ω₀ + αt where α is the angular acceleration
∴ 4π = 0 + α(10)
∴ α = 0.4 π rad/s²
- Number of revolutions completed will be given by :
θ = ω₀t + (1/2)αt²
= 0 + (1/2)(0.4π)(10²)
∴ θ = 20π rad
- Hence, number of revolutions will be,
θ ÷ 2π = 20π 2π
= 10 revolutions.
- For first revolution, distance covered will be 2π.
∴ 2π = 0 + (1/2)(0.4π)t₁²
∴ t₁² = 10
∴ t₁ = √10 sec.
= 3.16 seconds
- It takes 10 seconds to complete 10 revolutions.
- Hence,
time taken for 10th revolution = 10 - time taken for 9 revolutions
- To calculate time taken for 9 revolutions,
9×2π = 0 + (1/2)(0.4π)t₉²
∴ t₉² = 90
∴ t₉ = √90
= 9.49 seconds
- Hence, time taken for 10th revolution = 10 - 9.49 = 0.11 seconds
Answers:
- The ant will complete 10 revolutions in 10 seconds.
- Time taken for first complete revolution is 3.16 seconds.
- Time taken for last complete rotation is 0.11 seconds.
Answer:
i) Number of revolutions completed by an ant in t =10 seconds is 10
ii) a) Time taken for first revolution = 3.16 sec
b) Time taken for last revolution = 0.5131 sec
Explanation:
Given data :-
Diameter = 1 m
Radius (r) = 0.5 m
After 10 seconds, frequency (n) = 2 rev/s
What we have to find out :-
i) Number of revolutions completed by an ant in t =10 seconds
ii) a) Time taken for first revolution
b) Time taken for last revolution
The ant is stuck to the rim of the wheel. Hence revolutions completed by wheel is same as that completed by the ant, an ant is just like any arbitrary or reference point on rotating point other than there is no role of ant in this numerical.
since we have,
n = 2 rev/s hence final angular velocity is given by,
ω =2πn
=2 π (2 )
= 4π rad /s
similarly, Initial angular velocity Initially, ω₀ = 0 rad /s because initially the wheel is at rest.
Since wheel is uniformly accelerated. Hence an angular acceleration is produced which is given by,
α = (ω - ω₀ ) / t
= ( 4π – 0 ) / 10
α = 0.4 π rad/s²
Now by using formula, the total angular displacement is given by
θ = ω₀t + (1/2)αt²
= 0 + (1/2)(0.4π)(10²)
= 20 π rad
Hence, number of revolutions = (angular displacement / 2π )
= θ / 2π
= 20π / 2π
= 10 revolutions in 10 sec.
ii) since the wheel is accelerating uniformly means the angular velocity is increasing with respect to time hence initial speed is minimum (requires more time to complete its first revolution i.e t1 is maximum )and final i.e after 10 sec the speed is maximum (requires less time to complete its last revolution i.e t2 is minimum)
a) For the first revolution, distance covered will be 2π because one revolution takes an angle of 3600 or angular displacement of 2π rad.
θ1 = ω₀t + (1/2)αt1²
∴ 2π = 0 + (1/2)(0.4π) t₁²
∴ t₁² = 10
∴ t₁ = √10 sec.
= 3.16 seconds
Now for two revolution (which includes 1st and 2nd ), θ2 = 4 π
θ2 = ω₀t + (1/2)αt2²
t2 = √20 sec
Hence for upto nine revolution (which includes 1st to 9th ), θ9 = 18 π
θ9 = ω₀t + (1/2)αt9²
t9 = √90 sec
b)Hence time for last revolution = Time for all 10 revolution - Time for 9 rev.
= 10 - √90
= 10 – 9.4868
= 0.5131 sec