A concave lens can only form a. A. real image. B. reversed image. C. virtual image. D. magnified image.

Answers

Answer 1

Answer: A concave lens can only form a:

C. virtual image.

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Enter the expression 2cos2(θ)−1, where θ is the lowercase Greek letter theta.

Answers

2cos2(θ)−1 = 0
2cos2(θ)=1
cos2(θ)=1/2
2θ=arc cos1/2
2θ=60 degrees
θ=30 degrees

What is a main sequence star?
definition please:)

Answers

Any star that is fusing hydrogen in its core and maintains a stable equilibrium between the inward pressure from gravity and the outward pressure from core nuclear fusion is called the main sequence star.

The main sequence is a continuous and recognisable band of stars in astronomy that may be seen on maps of stellar colour against brightness.

A star produces thermal energy in its dense core area by nuclear fusing hydrogen into helium after condensation and ignition. The star's location on the main sequence at this moment in its existence is mostly based on its mass, but also on factors like its age and chemical makeup.

Main-sequence stars' cores are in a state of hydrostatic equilibrium, where the inward pressure of gravitational collapse from the surrounding layers balances the outward heat pressure of the hot core.

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The main sequence star definition is A main sequence star is any star that is fusing hydrogen in its core and has a stable balance of outward pressure from core nuclear fusion and gravitational forces pushing inward. I will also put a picture of the star life cycle linked on my answer hope this helps :)

Squaw Valley ski area in California claims that its lifts can move 49800 people per hour. If the average lift carries people about 190 m (vertically) higher, estimate the maximum total power needed. (Assume an average mass per person of 70 kg.) W

Answers

Answer:

1,803,036.67 W

Explanation:

Data provided in the question:

People per hour that can be moved by lift = 49800

Height of movement, h = 190 m

Average mass per person = 70 kg

Now,

Power = Rate of doing work

Thus,

Power = ΔU

= mgh

here,

m = total mass

g = acceleration due to gravity

Power = (70kg × 49800)(9.8)(190)

Power = 6,490,932,000 J per hour

also,

Watt = Joule/second

Therefore,

Power = 6,490,932,000 ÷ 3600

= 1803036.67 W

Final answer:

To estimate the maximum total power needed for Squaw Valley ski area to move 49800 people per hour on their lifts, we calculate the work done per person per hour and then divide it by the time taken to travel vertically by 190 m. The estimated maximum total power needed is 3.31 x 10^8 W.

Explanation:

To estimate the maximum total power needed to move 49800 people per hour on a skilift at Squaw Valley, we can calculate the work done per person per hour and then divide it by the time taken to travel vertically by 190m. The work done is equal to the potential energy gained, which is given by the formula mgh, where m is the average mass per person (70 kg), g is the acceleration due to gravity (9.8 m/s^2), and h is the vertical height gained (190 m). Multiplying this by the number of people per hour gives us the total work done per hour. Dividing this by the time taken to travel the vertical height gives us the maximum power needed. The power is given by the formula P = W/t, where W is the work done and t is the time taken.

Using the given values, we have:

Work done per person per hour: (70 kg) x (9.8 m/s^2) x (190 m) = 128660 J

Total work done per hour: 128660 J x 49800 = 6.40 x 10^9 J

Time taken to travel vertically by 190m: 190 m / (9.8 m/s^2) = 19.39 s

Maximum power needed: (6.40 x 10^9 J) / (19.39 s) = 3.31 x 10^8 W

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Q2. Zara travelled in a train moving at an average speed of 120km/h and covered a distance of 40km towards East. Calculate the time taken by the train to cover this distance.

Answers

Answer: 20 minutes

Explanation:

Given the following :

Average speed of train = 120km/hr

Distance = 40km.

The time take by the train moving at an average speed of 120km/hr to cover a distance of 40km due is ;

Recall:

Speed = distance / time

Therefore,

Time taken = distance covered / speed

Time taken = 40km / 120km/hr

Time taken = 1/ 3 hr

Therefore, 1/3 rd of an hour equals

1/3 × 60 = 20 minutes.

Time taken) 20 minutes

Time taken by tain to cover distance is 20 minutes as:

Distance= 40 km

Speed= 120 km/h

Time= distance/speed

= 40/120

= 1/3 hour

= 20 min

or =0.33 hrs

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Who speaks the line "Lord, what fools these mortals be"? A. Oberon
B. Cobweb
C. Mustardseed
D. Puck

Answers

The answer is D.Puck.

♡♡Hope I helped!!! :)♡♡

How many times more intense is an earthquake that measures 7.5 on the Richter scale than one that measures 6.7? (Recall that the Richter scale defines magnitude of an earthquake with the equation M=log i/s , where i is the intensity of the earthquake being measured, and S is the intensity of a standard earthquake

Answers

.5 - 6.7 = 0.8
10^0.8 ≅ 6.309573445
The 7.5 earthquake is approximately 6.3 times as intense as the 6.7 earthquake

How to figure it using your equation:
M = log(i/s)
10^M = i/s
i = s·10^M
ratio of the intensities of the two earthquakes = (s·10^7.5)/(s·10^6.7)
= 10^(7.5-6.7)
= 10^0.8
≅ 6.3:1

Answer:

6.31 times ( approx )

Explanation:

Given formula to find the magnitude of an earthquake is,

$M=log((I)/(S))$