If 20 J of energy is trapped at producer level, then how much energy will be available to peacock as food in the following chain?
Plant `rarr` Mice `rarr` Snake `rarr` Peacock

If 20kJ energy is available at the producer level , then how much energy will be transferred to the lion in the food chain : producer rarr deer rarr lion ?

Identify the possible link ''A'' in the following food chain : Plant rarr insect rarr frog rarr ''A'' rarr eagle:

Identify the possible link ''A'' in the following food chain Plant rarr insect frog rarr ''A'' rarr Eagle

In the following food chain, 100 J of energy is available to the lion. How much energy was available to the producer? Plants to Deer to Lion

Identify the following food chain: Dead animal Blow fly maggots rarr Common Frog rarr Snake

Rewrite the following in their correct sequence in a food chain : Grass rarr Tiger rarr Deer

Rewrite the following in their correct sequence in a food chain : Snake rarr Grasshopper rarr Grass rarr Frog

If 1,000,000 J of sunlight is provided to a food chain what is the amount of energy is present a top consumer level is food chain have four trophic level.

Rewrite the following in their correct sequence in a food chain : Snake Peacock rarr Rat rarr Wheat

A colliison between reactant molecules must occur with a certain minimum energy before it is effective in yielding Product molecules. This minimum energy is called activation energy E_(a) Large the value of activation energy, smaller the value of rate constant k . Larger is the value of activation energy, greater is the effect of temperature rise on rate constant k . E_(f) = Activation energy of forward reaction E_(b) = Activation energy of backward reaction Delta H = E_(f) - E_(b) E_(f) = threshold energy For the following reaction at a particular temperature, according to the equations 2N_(2)O_(5) rarr 4NO_(2)+O_(2) 2NO_(2) + (1)/(2)O_(2) rarr N_(2)O_(5) The activation energies are E_(1) and E_(2) , respectively. Then