Maths-
General
Easy
Question
If
, then ![A to the power of 2 end exponent B equals](data:image/png;base64,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)
- dig (5, 4, 11)
- dig (–4, 3, 18)
- dig (3, 1, 8 )
- B
The correct answer is: dig (–4, 3, 18)
![A to the power of 2 end exponent B equals left parenthesis A. A right parenthesis B equals open square brackets table row 2 0 0 row 0 cell negative 1 end cell 0 row 0 0 3 end table close square brackets open square brackets table row 2 0 0 row 0 cell negative 1 end cell 0 row 0 0 3 end table close square brackets. open square brackets table row cell negative 1 end cell 0 0 row 0 3 0 row 0 0 2 end table close square brackets](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAWkAAABGCAYAAAAO9mUZAAAACXBIWXMAAA7EAAAOxAGVKw4bAAAABGJhU0UAAAAo9ZE6ZAAACTNJREFUeNrtnVGEHVcYx48VsWKFiIqKCisi8lChD7VWRKkVsSKWqIiKKlEVtQ+lDxF9qBJ9WivCihUVVSIqIiJUREREqIg8xRLRx33Zh1V1rTI9nzmrtzcz996Z+c43c+f+/nwPe3b3nDm/M9//zsyZe45zqC1KMgIV4wTDOOcaXMlhxICqcINhnHMPruQ0YkAxaUyanEYMKCaNMGlyGjGgmDQmjeA23gM66+O2j00fWz5e+jinfDy7fVzz8TzESihrWhsJDFUZ1mk2h3xcDmNRN3MLrqjFJv3Yx1kfU+HnIz6ehjItPfRxquvn+VDmGtZGAkNVhnWazU0fFyq2p8Xcgisas1ujAz5eKR3LGR/LGeVLiiam1UYCQ1WGTTCbpGYeVlzRmJm0qKN0LPIYYC6j/JPwuya1kcBQleEom7QWDyuuaMxMeibcrmtow8fOjHIpW29YGwkMVRmOsklr8bDiisbIpCddOrkxq3Qs//T53VbD2khgqMpwlE1ai4cVVzQmJr3Hx52c27MYyd9pWBsJDFUZapybyRBhbdKdBnJFY2DS08FcDiofy3rO7d6k4q26VhsJDFUZjvKVtBYPK66o5SZ92Md1H7siHItMjpzIKJ9zupNeGm0kMFRlOMomrcXDiitqsUnv83HLx45Ix7IQzKtXN5ze62NabSQwVGU4yiatxcOKK2qxSd8LV4Ex9cjHYjAxufW75NIvgDStjQSGqgxH2aQ1mVtwRS026bITMkUkk2mrLp0o+dulX4udUu6zRhsJDFUZ1mk2GmOhxdyCK2qxSaPqJo2aeyVNTiMGFJNGmDQ5jRhQTBqThitiQOEGQ0yanEYMKCaNSSNymgFFmDQmTU4jBhSTRph0w3N6+x1EWdFJlmY8CE9MGpOGIedm83J6wsfXPl7AE5PGpGHIudncnO40oEPyYXGlpravhPYxaUwaM+HcbFxOH3f66wkU1Yc+ntV8DE/DcWDSmDRmwrlpltOLA37/fjCn6QFX2bII9p8+3vi4G/5P2yCPKvSnCpOPfDypkQOJgElj0mNm0p+5dGIwbynGQy5dCayf0ciE4suesh9cumSflo664faVG9Qfp1DHk2DWdXAomgi7fVxz6ZZPEiuhzEpy/lzO4GLdhwSGqgxjmnRs3rJR7H2XLogkF1VrLt3he28TucoKTrI1/e8+TudcQd8folH53196yhYyyqroJx8XB/zNoP4Mo2Hq+MZlPxe34FA0ER76ONX183wos9JNHxcqJrBGHxIYqjKMadKxeT8Kebmz5yLwQRO5iuvL4tTnfVzN+L0Y9DBr6X7v47uesp9d9q4FZSUAjw34m0H9GUbD1DGTMxAWHIokwhkfyxnlS05vQfnYj2m0+pDAUJVhLJOuk/dm07jOhMcYItl94k3OPw+zbuutcBU5ET6RZH3VxT4HVGbzyU2XvZ9Ykf4M0rB17MwZUAsORRJBtvCZy7nduz0iBqPVhwSGqgxjmXRdvGW+7XWTuMqz1j98fNBV9sKV34FirctY/lK+ctxWv515NfpTtI6tmjgUSYSNnA82KVsfEYPR6kMCQ1WGsUzamrdcjH0Rcvdkk7jKbfm3PWU/unLvAE8EQ9o+uE9d+prcIUOT1uhP0Tq2auKQKDHbGhGD0epDAkNVhrFM2op3713rYpO4HnbZ3xyU96DvljjQj927z2fPuXSiz+Jxh0Z/itaR9bjDioOWwXQqntRFtzCKYTCdkokAw+oM6zDpGF+mkxcF5BHl85DvjeD6pM8JUubVNXlAvtpT9rnL3kW3iuRti9mMco3+FK0ja+LQikORRFjP+WCbHKFbda0+JDBUZRjLpOviPRWMunau8hrPUp8//rXEc5nl8EynW6tOfyY26xU8jf6UqeNixhWyFYeik15Zz8Xn3GhNemn0IYGhKsNYJl0n707dXOWd51eu/062Xw4wrCz91nWg77n0tZSXrv+bGGXU+2WWsv3pvq0sW0fWl1msOBRJhIWcK/kbbnReH9PqQwJDVYYu4xGNhknXxVuWelirm6u8HjY/4I/3lzjQja7B6oQrz/2RQD5z/62bUbY/3SdWmTryvhZuxaFoIsiL+4vhkY18YFxy9azBUiWBNfqQwFCVYSyTtuD9OFxESf0y4S+vzL116XcjmsB1pMUCS8UHdE947CIfHPI12JUBdw4xjrfI5FisPiQwVGUY02xi85Yvxd0L9XeC0c7XeKytW/PkK1ffUqXyHPpCzf1nEZvq3GAY59yDKzmNGFBMGpMmpxEDikkjTJqcRgwoJo1JI7gxoAiTxqTJacSAYtKce3AlpxEDiklj0uQ0YkAxaYRJk9OIAcWkMWkENwYUYdKYNDmNGFBMmnMPruQ0YkAxaUyanEZtG9DdPq65dEFziZVQpqXY9csKZbJrvSxeI4vYyIqEsnTsXkOThqGtScfmodWGbEIi60bLLk2yOYgsTXwOk0ZFB1R2kDnV9fO8e3dXmSqKXb+sUCbr9navyy1riz8wNGkY2pp0bB5abciSpLJu9Paqd0dcukrm2cg5jVpk0rJm7nJG+ZLTWUA9dv39tGlk0jC0NWkLHjHbOODSjUQwaUx6KMmt2FzO7a/GVkSx68/TtI/XRiYNQ1uTtuARu41OxJxGLTPpDZe9fZeUaWzqGbv+Xu1z6T6S8kz1ZAVuMKzOMJbZWPCI2caM+/82f5g0Jt1X/bac31I4ltj1d/e5OxYrcoNhdYaxzMaCR6w2ZJdwmYScxaQxaY2TsRP5ZO9E6LtsVXQ6JMLxBpj0ODOsw6S1eMRoQ7jecdmPUTBpTDpX6zm3dZNKt46x68/TVDAZC5OGoa1JW/DQbmM6GPRBg5xGLTNpmQQ5kVE+5/QmvWLW7xSveBIYqjKMZTYWPDTbOOzjuo9dRjmNWmbSC+EE6tUNp/M6U+z68yS7ta8ZmTQMbU3agodWGzIJe8vHDsOcRi0zaZF8kWExnEhyi3fJpS/hayl2/VLXmVD/hEtfk3rr47yRScPQ1qQteGi1cS9cSVvnNGqZScuExmq4tZWvBcvXX6cUjyd2/cdCMnRCSHLNV+QGw+oMY5pNbB5abSR9ApPGpJGhSSNbk4YrYkAxaYRJk9OIAcWkMWlETjOgCJPGpMlp1KwBrTJJAScYxjrX4FqB678bkmeeGAtJhAAABE50RVh0TWF0aE1MADxtYXRoIHhtbG5zPSJodHRwOi8vd3d3LnczLm9yZy8xOTk4L01hdGgvTWF0aE1MIj48bXN1cD48bWk+QTwvbWk+PG1uPjI8L21uPjwvbXN1cD48bWk+QjwvbWk+PG1vPj08L21vPjxtbz4oPC9tbz48bWk+QTwvbWk+PG1vPi48L21vPjxtaT5BPC9taT48bW8+KTwvbW8+PG1pPkI8L21pPjxtbz49PC9tbz48bWZlbmNlZCBjbG9zZT0iXSIgb3Blbj0iWyIgc2VwYXJhdG9ycz0ifCI+PG10YWJsZT48bXRyPjxtdGQ+PG1uPjI8L21uPjwvbXRkPjxtdGQ+PG1uPjA8L21uPjwvbXRkPjxtdGQ+PG1uPjA8L21uPjwvbXRkPjwvbXRyPjxtdHI+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PG10ZD48bW8+LTwvbW8+PG1uPjE8L21uPjwvbXRkPjxtdGQ+PG1uPjA8L21uPjwvbXRkPjwvbXRyPjxtdHI+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PG10ZD48bW4+MzwvbW4+PC9tdGQ+PC9tdHI+PC9tdGFibGU+PC9tZmVuY2VkPjxtZmVuY2VkIGNsb3NlPSJdIiBvcGVuPSJbIiBzZXBhcmF0b3JzPSJ8Ij48bXRhYmxlPjxtdHI+PG10ZD48bW4+MjwvbW4+PC9tdGQ+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PC9tdHI+PG10cj48bXRkPjxtbj4wPC9tbj48L210ZD48bXRkPjxtbz4tPC9tbz48bW4+MTwvbW4+PC9tdGQ+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PC9tdHI+PG10cj48bXRkPjxtbj4wPC9tbj48L210ZD48bXRkPjxtbj4wPC9tbj48L210ZD48bXRkPjxtbj4zPC9tbj48L210ZD48L210cj48L210YWJsZT48L21mZW5jZWQ+PG1vPi48L21vPjxtZmVuY2VkIGNsb3NlPSJdIiBvcGVuPSJbIiBzZXBhcmF0b3JzPSJ8Ij48bXRhYmxlPjxtdHI+PG10ZD48bW8+LTwvbW8+PG1uPjE8L21uPjwvbXRkPjxtdGQ+PG1uPjA8L21uPjwvbXRkPjxtdGQ+PG1uPjA8L21uPjwvbXRkPjwvbXRyPjxtdHI+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PG10ZD48bW4+MzwvbW4+PC9tdGQ+PG10ZD48bW4+MDwvbW4+PC9tdGQ+PC9tdHI+PG10cj48bXRkPjxtbj4wPC9tbj48L210ZD48bXRkPjxtbj4wPC9tbj48L210ZD48bXRkPjxtbj4yPC9tbj48L210ZD48L210cj48L210YWJsZT48L21mZW5jZWQ+PC9tYXRoPkYX9nIAAAAASUVORK5CYII=)
.
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Which is obtained on treating phenol, with dilute ![H N O subscript 3 ?](data:image/png;base64,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)
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