r सेमी त्रिज्या वाले एक वृत्त की एक जीवा PQ की लंबाई
2a सेमी है । वृत्त के बिंदु Pतथा Q पर खींची गई स्पर्श रेखाएँ
यदि T पर मिलती हैं, तो TP की लंबाई क्या है ?
ar
2ar
(a)
(b)
2
2.
Jr
2
2
-a
-a2
r+a2
(c)
ar
(d)
r-a
2
r
2
-a
Answers
Answer:
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)
copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ K
Step-by-step explanation:
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)
copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latentfurnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)
copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ K
heat of fusion of ice = 333kJ Kfurnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)
copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ Kg)copper block of 3. 1 kg is heated in a
furnace form 20°C to 520 °C and then
placed on
thick ice block. Coloubite
Specific heat of copper it mass of
ice molted is 1.8kg. Griven: latent
heat of fusion of ice = 333kJ K