366644 The temperature of a body falls from \({52^{\circ} {C}}\) to \({36^{\circ} {C}}\) in 10 minutes when placed in a surrounding of constant temperature \({20^{\circ} {C}}\). What will be the temperature of the body after another 10 min? (Use Newton's law of cooling)

366645 A pan filled with hot food cools from \(94^\circ C\) to \(86^\circ C\) in 2 minutes. When the room temperature is \(20^\circ C\). How long will it cool from \(74^\circ C\) to \(66^\circ C\) ?

366646 The rates of cooling of two different liquids put in exactly similar surroundings are the same if

366647 A body cools from \(80^\circ C\) to \(60^\circ C\) in 5 minutes.The temperature of the surrounding is \(20^\circ C\).The time it takes to cool from \(60^\circ C\) to \(40^\circ C\) is

366644 The temperature of a body falls from \({52^{\circ} {C}}\) to \({36^{\circ} {C}}\) in 10 minutes when placed in a surrounding of constant temperature \({20^{\circ} {C}}\). What will be the temperature of the body after another 10 min? (Use Newton's law of cooling)

366645 A pan filled with hot food cools from \(94^\circ C\) to \(86^\circ C\) in 2 minutes. When the room temperature is \(20^\circ C\). How long will it cool from \(74^\circ C\) to \(66^\circ C\) ?

366646 The rates of cooling of two different liquids put in exactly similar surroundings are the same if

366647 A body cools from \(80^\circ C\) to \(60^\circ C\) in 5 minutes.The temperature of the surrounding is \(20^\circ C\).The time it takes to cool from \(60^\circ C\) to \(40^\circ C\) is

366644 The temperature of a body falls from \({52^{\circ} {C}}\) to \({36^{\circ} {C}}\) in 10 minutes when placed in a surrounding of constant temperature \({20^{\circ} {C}}\). What will be the temperature of the body after another 10 min? (Use Newton's law of cooling)

366645 A pan filled with hot food cools from \(94^\circ C\) to \(86^\circ C\) in 2 minutes. When the room temperature is \(20^\circ C\). How long will it cool from \(74^\circ C\) to \(66^\circ C\) ?

366646 The rates of cooling of two different liquids put in exactly similar surroundings are the same if

366647 A body cools from \(80^\circ C\) to \(60^\circ C\) in 5 minutes.The temperature of the surrounding is \(20^\circ C\).The time it takes to cool from \(60^\circ C\) to \(40^\circ C\) is

366644 The temperature of a body falls from \({52^{\circ} {C}}\) to \({36^{\circ} {C}}\) in 10 minutes when placed in a surrounding of constant temperature \({20^{\circ} {C}}\). What will be the temperature of the body after another 10 min? (Use Newton's law of cooling)

366645 A pan filled with hot food cools from \(94^\circ C\) to \(86^\circ C\) in 2 minutes. When the room temperature is \(20^\circ C\). How long will it cool from \(74^\circ C\) to \(66^\circ C\) ?

366646 The rates of cooling of two different liquids put in exactly similar surroundings are the same if

366647 A body cools from \(80^\circ C\) to \(60^\circ C\) in 5 minutes.The temperature of the surrounding is \(20^\circ C\).The time it takes to cool from \(60^\circ C\) to \(40^\circ C\) is