Question
The set of intelligent students in a class is-
- a null set
- a singleton set
- a finite set
- not a well defined collection
The correct answer is: not a well defined collection
To define the set of intelligent students in a class.
A finite set has the number of elements defined and finite. So, the set of intelligent students is not a finite set since the number students may vary.
Therefore, the set of intelligent students in a class is not a well defined collection.
Related Questions to study
Let U = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, A={1, 2, 5}, B = {6, 7} then
is-
Therefore, A ⋂ B’ = A.
Let U = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, A={1, 2, 5}, B = {6, 7} then
is-
Therefore, A ⋂ B’ = A.
If
, then
is equal to-
Therefore, is equal to = A
If
, then
is equal to-
Therefore, is equal to = A
The velocity of a body is given by the equation
, where t is the time taken. The body is undergoing.
The velocity of a body is given by the equation
, where t is the time taken. The body is undergoing.
A bus is moving at 20
. How much distance in kilometers will the bus cover in 25 minutes.
A bus is moving at 20
. How much distance in kilometers will the bus cover in 25 minutes.
An object moves from A to B in 2h in given figure. The velocity of object is.
![](data:image/png;base64,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)
An object moves from A to B in 2h in given figure. The velocity of object is.
![](data:image/png;base64,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)
A car moving on a straight road covers one third of the distance with 20 km/hr and the rest with 60 km/hr. The average speed is
A car moving on a straight road covers one third of the distance with 20 km/hr and the rest with 60 km/hr. The average speed is
The displacement of object in given diagram is
![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAI0AAABpCAYAAAAHi6AxAAAPbklEQVR4nO2d+3NTV37AP+devWVhsGwZbMcYP4KJidNtMZAQnN2FlLwKns5st/vozk5nOtm2P3b/hnb6P2x2d5pmk912t0N28wCyG1IeZQgUbBxsA7axsPBLxpIsS7ake09/0MMPSJdLjCQn58OAmasr6xzdj8753vP4SkgpJQqFBbRSF0Cx8VDSKCyjpFFYRkmjsIySRmEZJY3CMkoahWWUNArL2EpdAMX9PGi8VQhRgpI8GCVNGSGlxDAMTMOAFZIIIdB1HU0rj45BSVMqJCBAIpEAhiQen+fy5UsMDQ1idzhxOV3Mzs7S0PAEx3qOIaUsixZHSVNi8h3R4uIiJ0+eYHBwgL/+zndoampGmpKTJ08SnpkpG2FASVN0JBJpSkzTLHQ3AsHkxASffHyaAwcPsL1xO7qugS7o6uoiHJ55YJxTKpQ0xUZCbD7G9NQ0NTU1+Hw+hBCMjo4SmrhLTU0Am335slTXVLPFX4VN10tY6NWUR2T1FUIIwdjtMd5555fcvHmz0IIkkglSSyl0mw7ku6HsYzZdL5uuCZQ0JSEejxMcGyM+Hy8cq6ry4/F6iUVjK+IXgZSSdDqNaZqlK/AalDSlQGbbknzbIYSguaWZpzo6uD4wSHAsSCKRZGlpiampKe7evVtWMY2SppTkrBFC4Pf7OXr0KJqm8d7773P58mX6+/u5ffs2LperrLonFQiXCTabjV27dhEIBJicnCSTyVBRUUEgECgEy+WCkqZM0DQNl8tFXV0dW7duLcQ1mqaVzUhwHiVNGSGEKPxdeazcUNKUIeUoykrKq937ylA+d0KPgpKmFAhAbFxxlDQKyyhpFJZR0igso6RRWEZJo7CMkkZhGSWNwjJKGoVllDQKyyhpFJZR0igso6RRWEZJo7CMkkZhGSWNwjJKGoVllDQKyyhpFJZR0igso6RRWEZJUwKy+7jLe5vK/4eSplRsXGeUNKVDfuHtT6XKJKF2WG4Q8oIUdl/K1cfze7+LsTtTSfM4yWXwXHkg3zgICaxpKVadXpABMpkMi4tJDNPE5/Oha3oh2dFcZA6Xy/XQmSXuK9IjoLqnx8maqyOlRJoGyUSCaCRCNBYhk8l8znMFppTMzs7y6cWLXOvtYz4Wy/6e3J87wSBvvfUWvb29pNPph+qu1qMdUtIUDYmUkrm5Oa719XHr1i0+OX2amempQmq0lRfUNE1mZ8P84Q+/Z2xsjNptW6mt3VpoTQQCwzQI3RlnNhzGNE1M08wmr17xf8MwyGQyhePZn8YXiodU91QkpIRkMsmly5f45JPTRGNRzp0/x66Op/j+3/wAt9sNLCcqTyYTnD9/jqGhQY4cOYK3oqLwmBACBGzevBl/dRW6rpFOp+jrvYrH68Xvr2JmJoxpGKTSaWKxGC3NzSQXFxkdHaW1tZXW1lZsNvsj1UW1NEVASolpGty5c4czZ84gpWTb1lpam5v56NQp+q/1YRjGqqA2Gpnj04sX0TRBNBrh1//xn1zt7V2VsFEIgSYEpmlwNzTO5cuXWEwmiMVinPnvTzh9+mMmJ+5y9uwZ3n//PaamJhj4rJ/jv/k1ifjCI7c2SpoiIKUkmUxy5cr/MhsOs2//frZt28bhw4eor6/nF2+/zczM9HKQjCAcDhOJROjo6KCtbScLiQV+9ctfEYlEVl1sAQzfvMXVq1c5dPgwu3c/zZYtVdhsNlwuF8888wytLS3MzMzQ0tJGd3c3I8PDxOPx+wLxh0VJUyRMU7JpUyWHD/85T3c+g93ppnZrPd/7/g/Ytq0ewzCX08ACmYyJze6grv4Jtm7bxp49f8rk5ATxeHyVNFIIhkeGuXDhAj6vF5vNjq7ruJwuPB4P3ooKNm3ahNPpxO1ys6myEhPIGJlHHiZSMU0R0DQNr9fLoUOHAbh06VPcHg8ut4fdTz9N+65duN3uVbn1qmtqqKzczNzcHKZp4nQ6qa0N4HZlY5/8uIxEcuD557l16xY/eeMN/v4f/hGBQNO17Le35HL2aZoGAjRdgy+Yx09JUySEEDidzkIcIkT2wuq6jtPpvO/86upqDhw4wODQEE6nk5Hhm7z22mtUVVUhcrfjk5OTBMeC2G02jh49yo9//E/YbDaeO3CAGzduYrfbCAaDDA8PMzo6yuTEBKHQHaYmJxm6MURdfcOj1UWWU1bjrwjnzp3l5z/7Gd/97vd4/uBBbDbbqoG5/CVZXFxkeGSE5MICFb4KdjQ343RkxTNNk+np6UKe4cbGRgYHBjBNk0AgQDQWRdMEtYEA9+7NkUgkaGx8goVEgumpKerqG9i+vemRWhzV0pQhQmTT27tcLna1t2OaBrqe/c6EvFyaphEIBKipqUGIbEy7d9++wvNXsq1udYvS3Nz6haYclDRlyko5dF0jOzi4+iKXKr+wunsqc/LySLnqGwpLimppNgTFmb1+WFRLo7CMkkZhGSWNwjJKGoVllDQKy3y5pVFj3Y+FL600UmaXRCrWny+dNFJK5ufnuRMMkk5l182q6bX1Zd2kWbnqrPgXSZJfgyulZGhwkJ/+9A1On/6YuXv3MI0MUpq5cq38W+RSyuV1T0KIDdt9ruuIsDSXu4TSfbolW7Zsxu128c7bv6C/r5eXX3mFlrY2bDbbmvmb0pWxVOKuB19ImrwYhmEwODBAIrEAiBWTJMV7Y/KvaErJQjxOfUMDd0Mh3n33OAMDAxx56SXqG+rRdT23eKnIrNjsdmNo6L4VeLmT2Aj7dR9RmlyLIgAES6kUb/7bzxm+NZw9Vuy6F9bWgolkKZXCNE2WFpNMT00SGh/nxo1Bqqqq0G22XBGLWMA1ckRjMdKpNMhsKaSUy+9XXq5cbRACWWbpAh5dmnyFBdjtNn74w79lIbFQOM6K2dmVPGje7UE92cOcV9ihWngg2zmmlpaIRqP8/qOPWEwmaW5p4dXX/oKmpiZ0mw0KM8bic9dWr339hynjg8+Rq44LIbjW38+pkyeQufXA6XSaWHQOAMOUCE3H6/HidDrQNJFbqlk+9yyWpSnsGUZimiZCaNhtdtqfeqos7lKkNAkGxzh16iRjd8b5y299m56eHpqamhBl8sanUikunD+PpmVXT5mYXL9+nQ8++ICGJxppbGwiPDODz+elu7ubmkCgbJZFgEVpVt4hZdIZBgaus3lLFfX1DSX/0nFJvqnXmJiYIhZb4PXXf0RXVxc+nw9N07MnFnYolhZZ6HQEDpuDmuoaZsNhdu/eTdfePYzdvs1//ebXZDIZjvX04HZ7ymZ5hCVpsoXOBiyRSITjx4+zfXsT3/qrbxcWTZeOfHco6ezspLW1FX8uhllL6dvDFYjs++r2ePBVVFC5aRPV/mqMdBqHzc701BSpVBqXS5aNNJabBinBMEwmQiEW5uOcP3ee6enp4ndNMts9Li0tkUwmMDKZQhk8Hg/V1dUYpsnCQpzU0tJ9G8zKDSklqVSK8fFxPvusn48/Pk00GqF9VzsuV6k/kKuxJE02O4YkHp8nfO8ezx14nqVkkk8vXMhelCKKYxgZwuEZbt4Y4uaNGwSDYySTyRWFlYRnZjh75gwjoyOfK/WqjWdSAibFaYvEmmmO7GCfNCWZjEFyMUkqnSYej2MYZlnEi3ksSSPIjslMTk4Rm4+zo6WFHc07OHHiA5KJRFErNheJ8D/nzjI3dw+n08G1vl5u3ryBYWRyG+QFsViUy5cuMTZ2e9VIdX5k+MGj2GLVY4+H/E7+1dLYHXYanniCzs5OXn3lVbZvb+Ls2bOEw+GNKw1k9+KMjIwQiUSYmJigrqGBsWCQS59ewjCL94mIxWL09vWRTmfYUlXF/Pw8s7NhTHN5EM3pcqHpGulUmlRqkYWFONFoFCOXJGhxMcn8/DyxWJRMJs3CQpxIZC6X68X8IyVYL5azHElA13U0Tcvebuu5TXUlvMF4EJbvnrLNpUFHRwe1tbW0tjQzNnabDz/8kK69e/F41zfKL2w/XZM+rHLTJvx+P++/9zsmQiHcHjctLW3oue2okL0A2RFguBMMcvXqVZ7cuZOlpRSnTp2ktbWV+fl5pqam2N2xm0hkjmAwyDe+8U327X8Wu1177LGElNkPYn/fNUKhEGfPneNeJEo0EsEwTI4d66G6urrwHpRDbPPQ0uQDtZGRETRNo62tDZ/Ph2FkePHFF/mXf/5Xent72f/s/nWvnJlrwQrJf4TA4/XyzUOH+MnwCO8eP87f/eh1/H4/q8Lc3If43uwstxBsb2zKjoGEZ5i4e5e6ujq6uvby23ePMzx8iyNHjhCNRrly5Sp/tqcLh8OxbnX4PASg22zs3b+PnU8+ibDp2O1OpGnidjvZUlWF3e5A07Sy6aIstTSxWIyJiQkgm6CnoqIC0zRIp9N0d3dzZ3ycnXNzuYu3fkgpCYVCXLx4kVQqRWNjI62tLdwNhfja1/4E/5Yt/O7d3+L3V7P76c7lJwqYj80zeH2AI0de5tnnDrCpshLDyFBXV0dtIEB9fT0NDQ3ouk5rayvXr19n/E6ItcHwY5sZEQKbrlNbW0sgULu25rlztNyppW9lwKI0fr+fnp4eTNMsDObZbHa6X/g6zx98AaGJ3PbR9UUIQSKRIBQKsbS0hNfrxeeroLevj8OHXqS7++v8+5tv0t/fz872Xdjtyxme7A4HTqeLwYEB2tra2NWRH7kWFMZ2yO5WXL2fet2r8aCaAaDlMluJXF0Lgsrc/VWZyJLnoaXJ7/3NB2X5plLX8xfo8fS3+ddtb2+nvb29cHx0dBQpBfPxOHX19XR0dqLlZ7BzZUun0ui6xp69e4hGY5w4eQKXx4Pb7SKZTJJKp0il0qRSKZCQSqVJpwyWUmnS6XThtR6LP2uWaIgVqwMKj4jymqjM88hLI+4XpLjVCwQCHDx4kFgsxvj4OLW1tTQ0NBRamXz8U1/fQENDA15vBVeuXGFyYoJAbYD6+gZ8vkoMw6DaX4PdYSceX6CqqopMrst9bLWThX82JBt2W67b7aazs7OwLsXpdOL1egsBoxCCrdu28tJLL+NwOHA4HOzY0QyA0+ngWE8PLqcLp8tJ9wsvZINrj4eufXvJZDL4fL7Ca637x2E5WfB6/+aisGGlyY5lOHE6nfdl687/9Hi8qyb6PF5voeuq3Ly58LvcbveK53ge+62ty+WmpiaAy+VBiLILWf4oKqlRCYhGo0xNTRGoqaFyc2Uh195GQUlTAvLjTmvv2DYKShqFZcprUkOxIVDSKCyjpFFYRkmjsIySRmEZJY3CMkoahWWUNArLKGkUllHSKCyjpFFY5v8AJsy9ONJlyvYAAAAASUVORK5CYII=)
The displacement of object in given diagram is
![](data:image/png;base64,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)
Distance is a
Distance is a
A ball is thrown up with a certain velocity. It attains a height of 40m and comes back to the thrower. Then the
A ball is thrown up with a certain velocity. It attains a height of 40m and comes back to the thrower. Then the
ABCDEF is a regular hexagon. What is the value of ![stack A B with rightwards arrow on top plus stack A C with rightwards arrow on top plus stack A D with rightwards arrow on top plus stack A E with rightwards arrow on top plus stack A F with rightwards arrow on top](data:image/png;base64,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)
![](data:image/png;base64,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)
ABCDEF is a regular hexagon. What is the value of ![stack A B with rightwards arrow on top plus stack A C with rightwards arrow on top plus stack A D with rightwards arrow on top plus stack A E with rightwards arrow on top plus stack A F with rightwards arrow on top](data:image/png;base64,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)
![](data:image/png;base64,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)
The dimensions of a cuboid are 16m, 14m and 10m, then its TSA is
Therefore, TSA of cuboid is 1048 sq. meters.
The dimensions of a cuboid are 16m, 14m and 10m, then its TSA is
Therefore, TSA of cuboid is 1048 sq. meters.
If 4L + 2B + 3H = 228 metres, where L : B : H = 3 : 2 : 1, then the area of 4 walls of the room is
If 4L + 2B + 3H = 228 metres, where L : B : H = 3 : 2 : 1, then the area of 4 walls of the room is
The total area of 4 walls of a room is 120 m2 Its height is 2 metres If the floor in the form of a square, find the total cost of flooring at the rate of Rs 78 per m2 and painting the ceiling at the rate of 126 per m2</sub
Cost of flooring and painting for the ceiling is Rs 45900.
The total area of 4 walls of a room is 120 m2 Its height is 2 metres If the floor in the form of a square, find the total cost of flooring at the rate of Rs 78 per m2 and painting the ceiling at the rate of 126 per m2</sub
Cost of flooring and painting for the ceiling is Rs 45900.
The difference between the circumference and radius of the Circle is 37 cms The area of the Circle is
Therefore, the area of the circle is 154 cm².
The difference between the circumference and radius of the Circle is 37 cms The area of the Circle is
Therefore, the area of the circle is 154 cm².
Find the Area of four walls of a room 13 m long and 8 m wide and 5 m high
Therefore, the area of four walls of a room is 210 m².
Find the Area of four walls of a room 13 m long and 8 m wide and 5 m high
Therefore, the area of four walls of a room is 210 m².