All categories

2 years ago

2.) Explain why the starting angle doesnt impact the time it takes the pendulum to swing back and forth?

1 answer:

7 0

The starting angle θθ of a pendulum does not affect its period for θ<<1θ<<1. At higher angles, however, the period TT increases with increasing θθ.

The relation between TT and θθ can be derived by solving the equation of motion of the simple pendulum (from F=ma)

−gsinθ=lθ¨−gain⁡θ=lθ¨

For small angles, θ≪1,θ≪1, and hence sinθ≈θsin⁡θ≈θ. Hence,

θ¨=−glθθ¨=−glθ

This second-order differential equation can be solved to get θ=θ0cos(ωt),ω=gl−−√θ=θ0cos⁡(ωt),ω=gl. The period is thus T=2πω=2πlg−−√T=2πω=2πlg, which is independent of the starting angle θ0θ0.

For large angles, however, the above derivation is invalid. Without going into the derivation, the general expression of the period is T=2πlg−−√(1+θ2016+...)T=2πlg(1+θ0216+...). At large angles, the θ2016θ0216 term starts to grow big and cause

You might be interested in

according to newton's first law, massive objects have _____ inertia than small objects, which means it takes more force to move

Ksenya-84 [330]

According to newton's first law, massive objects have larger inertia than small objects, which means it takes more force to move bigger things than smaller ones.

4 0

2 years ago

Read 2 more answers

What happens to power as speed increases?

belka [17]

Well you know the formula is,

Power= Work/Time

So as time increases, Power Decreases, it's an inverse relationship.

Think about it like this, to have more "power" you have to be able to do a lot in a short amount of time, so by spending more time on something, your power decreases.

7 0

2 years ago

Ball A, with a mass of 20 kg., is moving to the right at 20 m/s. At what velocity should ball B, with a mass of 40 kg, move so t

seraphim [82]

Hope this helps you!

6 0

2 years ago

A 0.27 kg rock is projected from the edge of the top of a building with an initial velocity of 11.7 m/s at an angle 58◦ above th

tester [92]

Incomplete question.The complete question is

A 0.27 kg rock is projected from the edge of the top of a building with an initial velocity of 11.7 m/s at an angle 58 above the horizontal. Due to gravity, the rock strikes the ground at a horizontal distance of 15.9 m from the base of the building. How tall is the building? Assume the ground is level and that the side of the building is vertical. The acceleration of gravity is 9.8 m/s

Answer:

Total height of the building =6.78 m

Explanation:

v = 11.7 m/s

Horizontal component of velocity = v x cos 58 = 11.7*cos 58 = 6.2 m/s

Total time of flight = Horizontal distance / Horizontal component of velocity = 15.9 / 6.2 = 2.56 sec.

Vertical component of velocity = v x sin 58 = 11.7 x sin 58 = 9.92 m/s

Time taken to reach maximum height = Vertical component of velocity / g = 9.92 / 9.81 = 1.01 sec.

Hence, Time taken to reach ground from maximum height = 2.56 - 1.01 = 1.55 sec.

Hence, Maximum height from ground = 0.5 x g x t^2 = 0.5 x 9.81 x 1.55^2 = 11.78 m

Maximum height from the top of building = 0.5 x 9.81 x 1.01^2 = 5 m

Hence, Total height of the building = 11.78 m - 5 m = 6.78 m

6 0

2 years ago

What should be the initial potential energy of a pile driver ram so that when it strikes piles, it delivers a kinetic energy of

Sonja [21]

Answer:

the initial potential energy should be 20 kJ.

Explanation:

Based on law of conservation of energy, the kinetic energy delivered by the pile driver when it strikes the piles, should be equal to the initial potential energy.

Since the final kinetic delivered is given as 20 kJ, then the initial potential energy should be 20 kJ.

Therefore, the initial potential energy should be 20 kJ.

4 0

2 years ago

2.) Explain why the starting angle doesnt impact the time it takes the pendulum to swing back and forth?​

2.) Explain why the starting angle doesnt impact the time it takes the pendulum to swing back and forth?