Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as:
`6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i)`
The energy of one mole of a photon of wave lenght is known as one Einstein.
Write balanced equation for the reaction of glucose with `O_(2)` in which `O_(2)` is converted to `H_(2)O_(2)`

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Write balanced equations for the half cell reactions corresponding to oxidation of glucose.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Write balanced equations for the half cell reactions corresponding to oxidation of glucose.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. 48 Einsteins of 650nm are absorbed by a plant for the production of 1 mole of glucose as given in equation (i). Calculate the % efficiency for the production of glucose by photosynthsis. The energy requried for the formation of 1 mole of glucose is 2870 KJ.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. 48 Einsteins of 650nm are absorbed by a plant for the production of 1 mole of glucose as given in equation (i). Calculate the % efficiency for the production of glucose by photosynthsis. The energy requried for the formation of 1 mole of glucose is 2870 KJ.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Variation of emf of an electrochemical cell with temprature is known as the temperature coefficient of the cell .If delta(DeltaG//deltaT)_(p)=-DeltaS , calcualte the temperature coefficient fo the glucose fuel cell at 25^(@) C from the data given in 3.7.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Variation of emf of an electrochemical cell with temprature is known as the temperature coefficient of the cell .If delta(DeltaG//deltaT)_(p)=-DeltaS , calcualte the temperature coefficient fo the glucose fuel cell at 25^(@) C from the data given in 3.7.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Calculate the emf of this fuel cell at 25^(@) C if DeltaH^(@) and DeltaS^(@) of photosynthesis are 2.82xx10^(6) "J mol"^(-1) and -182 J"mol"^(-1) respectively.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Calculate the emf of this fuel cell at 25^(@) C if DeltaH^(@) and DeltaS^(@) of photosynthesis are 2.82xx10^(6) "J mol"^(-1) and -182 J"mol"^(-1) respectively.

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Heats of combustion of graphite and hydrogen at 298K are -393.5 KJ"mol"^(-1) and -285.8 KJ"mol"^(-1) respectively. If on combustion 1 g of glucose releases 15.58 KJ of energy , Calcualate the heat of formation of glucose at 298 K.