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Name the color!

1.
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2.
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3.
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4.
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5.
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6.
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Primary and secondary colors
1. List the primary colors of light (additive colors):
2. List the secondary colors of light (additive colors):
Write the seven colors of the rainbow in order:
Color systems
1. In the RGB color number system, what do R, G, and B stand for?
2. Define Hue:
3. Define Saturation:
4. Define Luminosity:
What was the effect of climate change on the Harappan culture of ancient Pakistan?
What do measurements of cardon dioxide (CO₂) done on Mauna Loa indicate is happening to the level of CO₂ in the atmosphere?
What is the expected impact on the climate of the planet Earth due to the above CO₂ observations?
What is thought to be the source of the CO₂?
A RipStik was swizzled ("wiggled") across a poster paper. The sinusoidal swizzle wave can be seen in the diagram below along with the measurements.
1. _________ How many wavelengths are shown?
2. λ = _________ _________ Calculate the wavelength λ of one wave in centimeters.
3. a = _________ _________ Calculate the amplitude a.
4. τ = _________ _________ Calculate the period τ.
5. f = _________ _________ Calculate the RipStik swizzle wave frequency f.
6. ѵ_wave = _________ _________ Use the wavelength λ and frequency f to calculate the velocity ѵ_wave of the RipStik swizzle wave.
A clapper clapping in synch with the echo claps 25 times in ten seconds during laboratory nine. The distance to the building and back was 132 meters.
1. τ = ________ _________ Based on this data, what is the period for the echo (the out-and-back time in seconds for one echo)?
2. velocity ѵ = _________ _________ Based on this data, what is the speed of sound?
3. percent error = _________ Given that the actual speed of sound that day was 350 m/s, what is the percentage error?
_______________ ______________ What precipitation process generates most of the daily rain on Pohnpei?
_______________ ______________ What precipitation process generates rain when air is lifted up by terrain?
_______________ ______________ What precipitation process generates rain in a thunder and lightning storm cell?
For the next few questions the instructor should have brought a thermometer. He will write some values on the board. Use those values for the questions below.
1. _______°C What is the dry bulb temperature?
2. _______°C What is the wet bulb temperature?
3. _______% Use a table to determine the relative humidity.
4. _______°C Use a table to determine the heat index (the perceived temperature).
5. ______________ What is the risk level for exercise: low, moderate, or high?

$slope m = \frac{(y2 - y1)}{(x2 - x1)}$
distance d = velocity ѵ * time t
period τ = 1 ÷ (frequency f )
velocity ѵ = wavelength λ * frequency f
$percent error = \frac{(experimental value - expected value)}{(expected value)}$

Relative humidity from dry bulb and wet bulb depression

	Web bulb depression in °C: Dry bulb minus the wet bulb
Dry bulb T in °C	0.5	1.0	2.0	2.5	3.0	3.5	4.0	5.0
21	95%	90%	83%	79%	77%	72%	67%	60%
24	96%	91%	84%	80%	78%	74%	69%	62%
27	96%	91%	85%	81%	78%	75%	71%	65%
28	96%	93%	85%	82%	78%	75%	72%	65%
29	96%	93%	88%	84%	80%	76%	73%	66%
30	96%	93%	88%	84%	81%	76%	73%	67%
32	96%	93%	89%	85%	81%	78%	74%	68%
35	96%	93%	89%	85%	82%	79%	75%	69%
38	96%	93%	89%	86%	83%	80%	76%	71%

Heat index

Relative humidity	21	24	27	28	29	30	31	32	35
	Dry bulb temperature in °C
60%	21	24	28	29.5	32	33	35	38	46
70%	21	25	29	30.7	34	35	37	41	51
80%	22	26	30	32.1	36	38	40	45	58
90%	22	26	31	33.7	39	41	43	50	64
100%	22	27	33	35.6	42	44	49	54	72

Heat risk for exercise

Effective temperature in °C:	Risk level
Less than 32 °C	Low risk: Safe to exercise with proper hydration
32 °C to 41 °C	Moderate risk: Heat cramps or heat exhaustion likely
Above 41 °C	High risk: Heat stroke likely.