Want this question answered?
a) testiable b) falisable c)both of the above d) none of the above the answer is , B ; falsiable . (: ENJOYYY ! <3
Amplitude and wavelength are independent of each other. There is no such formula.
It doesn't. Amplitude and wavelength are independent variables.
Freq times Wavelength = speed of light. Amplitude in totally independent.
To get the required wavelength of light
a) testiable b) falisable c)both of the above d) none of the above the answer is , B ; falsiable . (: ENJOYYY ! <3
a) testiable b) falisable c)both of the above d) none of the above the answer is , B ; falsiable . (: ENJOYYY ! <3
a) testiable b) falisable c)both of the above d) none of the above the answer is , B ; falsiable . (: ENJOYYY ! <3
a) testiable b) falisable c)both of the above d) none of the above the answer is , B ; falsiable . (: ENJOYYY ! <3
White sunlight contains all the wavelengths of visible light. Hence photosynthesis will always occur in it. That means it can not tell for contribution or non contribution of a particular wavelength in photosynthesis
Amplitude and wavelength are independent of each other. There is no such formula.
It doesn't. Amplitude and wavelength are independent variables.
Freq times Wavelength = speed of light. Amplitude in totally independent.
A hypothesis could be any correlative proposal such as "Sunspots cause damage to satellite radios" or "Higher average temperatures increase arctic bird populations."A hypothesis can be tested experimentally but not always in controlled tests.which of what? A hypothesis has If____________then____________because______________.A hypothesis is something that you want to check, formulated such that it is either true of false. For example, your hypothesis may be "if I shine electronagnetic radiation of a certain frequency at a metal, electrons will be ionized from their atoms only above a certain wavelength". Then you go do an experiment and see wether that is true (it is).
The wavelength of a color is directly related to the rate of photosynthesis, with longer wavelengths leading to higher rates of photosynthesis.
To get the required wavelength of light
PAR- Photosynthetically Active Radiation- 400-700nm