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    Maths-
    General
    Easy

    Question

    x0 = ?

    1. 1
    2. 2
    3. 0
    4. x

    Hint:

     

    The correct answer is: 1

      • We have been given an exponential function.
      • We will have to fund the value of the given exponential function.
      Step 1 of 1:
      We know that any number to the power zero is One.
      So, x0 = 1
      Hence, Option A is correct.

      Related Questions to study

      General
      Maths-

      State and prove the Perpendicular Bisector Theorem.

      Answer:
      • To prove: 
        • Perpendicular Bisector Theorem:

      • Proof: 
      • Statement:
        • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step 1:
      Let consider given figure,

      Let arbitrary point C on perpendicular bisector.
      In which,
      CD is perpendicular bisector on AB.
      Hence,
      AD = DB
      CD = CD (common)
      straight angle ADC equals straight angle BDC equals 90 to the power of ring operator
      So, according to SAS rule
      straight triangle ACE approximately equal to straight triangle ACE
      Hence,
      CA = CB
      So, any point on perpendicular bisector is at equal distance from end points of line segment.
      Hence proved.

      State and prove the Perpendicular Bisector Theorem.

      Maths-General
      Answer:
      • To prove: 
        • Perpendicular Bisector Theorem:

      • Proof: 
      • Statement:
        • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step 1:
      Let consider given figure,

      Let arbitrary point C on perpendicular bisector.
      In which,
      CD is perpendicular bisector on AB.
      Hence,
      AD = DB
      CD = CD (common)
      straight angle ADC equals straight angle BDC equals 90 to the power of ring operator
      So, according to SAS rule
      straight triangle ACE approximately equal to straight triangle ACE
      Hence,
      CA = CB
      So, any point on perpendicular bisector is at equal distance from end points of line segment.
      Hence proved.
      General
      Maths-

      What is a monomial? Explain with an example.

      Explanation:
      • We have to define monomial by giving an example.
      Step 1 of 1:
      A monomial is an expression with only one term.
      The examples are: 3x, 6y

      What is a monomial? Explain with an example.

      Maths-General
      Explanation:
      • We have to define monomial by giving an example.
      Step 1 of 1:
      A monomial is an expression with only one term.
      The examples are: 3x, 6y
      General
      Maths-

      Find the equation of a line that passes through left parenthesis negative 3 comma 1 right parenthesis and left parenthesis 2 comma negative 14 right parenthesis

      Hint:
      We are given two points and we need to find the equation of the line passing through them. The equation of a line passing through two points (a, b) and (c, d) is
      fraction numerator y minus d over denominator d minus b end fraction equals fraction numerator x minus c over denominator c minus a end fraction
      Step by step solution:
      Let the given points be denoted by
      (a, b) = (-3, 1)
      (c, d) = (2, -14)
      The equation of a line passing through two points (a, b) and (c, d) is
      fraction numerator y minus d over denominator d minus b end fraction equals fraction numerator x minus c over denominator c minus a end fraction
      Using the above points, we have
      fraction numerator y minus left parenthesis negative 14 right parenthesis over denominator negative 14 minus 1 end fraction equals fraction numerator x minus 2 over denominator 2 minus left parenthesis negative 3 right parenthesis end fraction
      Simplifying the above equation, we have
      fraction numerator y plus 14 over denominator negative 15 end fraction equals fraction numerator x minus 2 over denominator 2 plus 3 end fraction
      not stretchy rightwards double arrow fraction numerator y plus 14 over denominator negative 15 end fraction equals fraction numerator x minus 2 over denominator 5 end fraction
      Cross multiplying, we get
      5(y + 14) = -15(x - 2)
      Expanding the factors, we have
      5y + 70 = -15x + 30
      Taking all the terms in the left hand side, we have
      15x + 5y + 70 - 30 = 0
      Finally, the equation of the line is
      15x + 5y + 40 = 0
      Dividing the equation throughout by 5, we get
      3x + y + 8 = 0
      This is the required equation.
      Note:
      We can simplify the equation in any other way and we would still reach the same equation. The general form of an equation in two variables is given by ax + by + c = 0,, where a, b, c are real numbers. The student is advised to remember all the different forms of a line, like, slope-intercept form, axis-intercept form, etc.

      Find the equation of a line that passes through left parenthesis negative 3 comma 1 right parenthesis and left parenthesis 2 comma negative 14 right parenthesis

      Maths-General
      Hint:
      We are given two points and we need to find the equation of the line passing through them. The equation of a line passing through two points (a, b) and (c, d) is
      fraction numerator y minus d over denominator d minus b end fraction equals fraction numerator x minus c over denominator c minus a end fraction
      Step by step solution:
      Let the given points be denoted by
      (a, b) = (-3, 1)
      (c, d) = (2, -14)
      The equation of a line passing through two points (a, b) and (c, d) is
      fraction numerator y minus d over denominator d minus b end fraction equals fraction numerator x minus c over denominator c minus a end fraction
      Using the above points, we have
      fraction numerator y minus left parenthesis negative 14 right parenthesis over denominator negative 14 minus 1 end fraction equals fraction numerator x minus 2 over denominator 2 minus left parenthesis negative 3 right parenthesis end fraction
      Simplifying the above equation, we have
      fraction numerator y plus 14 over denominator negative 15 end fraction equals fraction numerator x minus 2 over denominator 2 plus 3 end fraction
      not stretchy rightwards double arrow fraction numerator y plus 14 over denominator negative 15 end fraction equals fraction numerator x minus 2 over denominator 5 end fraction
      Cross multiplying, we get
      5(y + 14) = -15(x - 2)
      Expanding the factors, we have
      5y + 70 = -15x + 30
      Taking all the terms in the left hand side, we have
      15x + 5y + 70 - 30 = 0
      Finally, the equation of the line is
      15x + 5y + 40 = 0
      Dividing the equation throughout by 5, we get
      3x + y + 8 = 0
      This is the required equation.
      Note:
      We can simplify the equation in any other way and we would still reach the same equation. The general form of an equation in two variables is given by ax + by + c = 0,, where a, b, c are real numbers. The student is advised to remember all the different forms of a line, like, slope-intercept form, axis-intercept form, etc.
      parallel
      General
      Maths-

      The degree of 25x2y23 is

      Explanation:
      • We have been given a polynomial expression in the question for which we have to find its degree.
      Step 1 of 1:
      We have given an expression
      We know that degree is highest power of variable present in polynomial.
      So,
      The degree of is
      Degree of  is
      Degree of is
      So, Total degree is

      Hence, Option B is correct.

      The degree of 25x2y23 is

      Maths-General
      Explanation:
      • We have been given a polynomial expression in the question for which we have to find its degree.
      Step 1 of 1:
      We have given an expression
      We know that degree is highest power of variable present in polynomial.
      So,
      The degree of is
      Degree of  is
      Degree of is
      So, Total degree is

      Hence, Option B is correct.
      General
      Maths-

      Ritu  earns R s 680 in commission and is paid R s 10.25 per hour. Karina earns R s
      410 in commissions and is paid R s 12.50 per hour. What will you find if you solve
      for x in the equation 10.25x + 680 = 12.5x + 480

      Answer:
      • Hint:
      ○   To solve the equation, group terms with the same coefficient on one side and numbers on                      the other side.
      • Step by step explanation:
      ○    Given:
      10.25x + 680 = 12.5x + 480
      ○    Step 1:
      ○    Solve the equation.
      ○    Group the like terms
      10.25x + 680 = 12.5x + 480
      rightwards double arrow680 - 480 = 12.5x - 10.25x
      rightwards double arrow200 = 2.25x
      ○    Step 2:
      ○    Divide both side with 2.25
      not stretchy rightwards double arrow fraction numerator 200 over denominator 2.25 end fraction equals fraction numerator 2.25 x over denominator 2.25 end fraction
      rightwards double arrow88.88 = x
      • Final Answer:
      Hence, the x = 88.88.

      Ritu  earns R s 680 in commission and is paid R s 10.25 per hour. Karina earns R s
      410 in commissions and is paid R s 12.50 per hour. What will you find if you solve
      for x in the equation 10.25x + 680 = 12.5x + 480

      Maths-General
      Answer:
      • Hint:
      ○   To solve the equation, group terms with the same coefficient on one side and numbers on                      the other side.
      • Step by step explanation:
      ○    Given:
      10.25x + 680 = 12.5x + 480
      ○    Step 1:
      ○    Solve the equation.
      ○    Group the like terms
      10.25x + 680 = 12.5x + 480
      rightwards double arrow680 - 480 = 12.5x - 10.25x
      rightwards double arrow200 = 2.25x
      ○    Step 2:
      ○    Divide both side with 2.25
      not stretchy rightwards double arrow fraction numerator 200 over denominator 2.25 end fraction equals fraction numerator 2.25 x over denominator 2.25 end fraction
      rightwards double arrow88.88 = x
      • Final Answer:
      Hence, the x = 88.88.
      General
      Maths-

      If the perpendicular bisector of one side of a triangle goes through the opposite vertex, then the triangle is ____ isosceles.

      Answer:
      • Hints:
      • Perpendicular bisector theorem
      • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step by step explanation: 
      • Step 1:
      Let consider given figure,

      Let arbitrary point C on perpendicular bisector.
      In which,
      CD is perpendicular bisector on AB.
      Hence,
      AD = DB
      CD = CD (common)
      ADC = BDC = 90o
      So, according to SAS rule
      ACD  BCD
      Hence,
      CA = CB
      So, triangle is always isosceles.
      Hence proved.
      • Final Answer: 
      Correct option A always.

      If the perpendicular bisector of one side of a triangle goes through the opposite vertex, then the triangle is ____ isosceles.

      Maths-General
      Answer:
      • Hints:
      • Perpendicular bisector theorem
      • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step by step explanation: 
      • Step 1:
      Let consider given figure,

      Let arbitrary point C on perpendicular bisector.
      In which,
      CD is perpendicular bisector on AB.
      Hence,
      AD = DB
      CD = CD (common)
      ADC = BDC = 90o
      So, according to SAS rule
      ACD  BCD
      Hence,
      CA = CB
      So, triangle is always isosceles.
      Hence proved.
      • Final Answer: 
      Correct option A always.
      parallel
      General
      Maths-

      Point P is inside △ 𝐴𝐵𝐶 and is equidistant from points A and B. On which of the following segments must P be located?

      Answer:
      • Hints:
        • Perpendicular bisector theorem
        • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step by step explanation: 
        • Given:
      Point P is inside △ 𝐴𝐵𝐶 and is equidistant from points A and B.
      • Step 1:
      • In △ ABC,
      According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      So,
      As P is equidistant from A and B it lies on perpendicular bisector on AB.
      • Final Answer: 
       Correct option. B. The perpendicular bisector of 𝐴𝐵.

      Point P is inside △ 𝐴𝐵𝐶 and is equidistant from points A and B. On which of the following segments must P be located?

      Maths-General
      Answer:
      • Hints:
        • Perpendicular bisector theorem
        • According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      • Step by step explanation: 
        • Given:
      Point P is inside △ 𝐴𝐵𝐶 and is equidistant from points A and B.
      • Step 1:
      • In △ ABC,
      According to perpendicular bisector theorem, in the triangle, any point on perpendicular bisector is at equal distance from both end points of the line segment on which it is drawn.
      So,
      As P is equidistant from A and B it lies on perpendicular bisector on AB.
      • Final Answer: 
       Correct option. B. The perpendicular bisector of 𝐴𝐵.
      General
      Maths-

      A constant has a degree__________.

      Explanation:
      • We have been given a statement in the question for which we have to fill the blank by choosing the appropriate answer from the given four options.
      Step 1 of 1:
      The degree of a constant is Zero.
      By definition of degree we know that it is highest power of variable present in polynomial.
      But for constant there is no polynomial.
      So, The degree of constant is Zero
      Hence, Option B is correct.

      A constant has a degree__________.

      Maths-General
      Explanation:
      • We have been given a statement in the question for which we have to fill the blank by choosing the appropriate answer from the given four options.
      Step 1 of 1:
      The degree of a constant is Zero.
      By definition of degree we know that it is highest power of variable present in polynomial.
      But for constant there is no polynomial.
      So, The degree of constant is Zero
      Hence, Option B is correct.
      General
      Maths-

      Graph the equation straight Y equals 3 straight X minus 5

      Hint:
      To plot the graph of an equation, first we make a table of points satisfying that equation. Then we draw an x-axis and y-axis on the graph. After that we scale both the axis according the values we get in the table. Lastly, we plot the points from the table on the graph and join them to get the required curve.
      Step by step solution:
      The given equation is
      y = 3x − 5
      First we make a table of points satisfying the equation.
      Putting x = 0 in the above equation, we will get, y = -5
      Similarly, putting x = 1, in the above equation, we get y = −2
      Continuing this way, we have
      For x = -1, we get y = -8
      For x = 2, we get y = 1
      For x = -2, we get y = -11
      Making a table of all these points, we have

      Now we plot these points on the graph.

      After plotting the points, we join them with a line to get the graph of the equation.
      Note:
      We can find the tabular values for any points of x and then plot them on the graph. But we usually choose values for which calculating y is easier. This makes plotting the graph simpler. We can also find the values by putting different values of y in the equation to get different values for x. Either way, we need points satisfying the equation to plot its graph

      Graph the equation straight Y equals 3 straight X minus 5

      Maths-General
      Hint:
      To plot the graph of an equation, first we make a table of points satisfying that equation. Then we draw an x-axis and y-axis on the graph. After that we scale both the axis according the values we get in the table. Lastly, we plot the points from the table on the graph and join them to get the required curve.
      Step by step solution:
      The given equation is
      y = 3x − 5
      First we make a table of points satisfying the equation.
      Putting x = 0 in the above equation, we will get, y = -5
      Similarly, putting x = 1, in the above equation, we get y = −2
      Continuing this way, we have
      For x = -1, we get y = -8
      For x = 2, we get y = 1
      For x = -2, we get y = -11
      Making a table of all these points, we have

      Now we plot these points on the graph.

      After plotting the points, we join them with a line to get the graph of the equation.
      Note:
      We can find the tabular values for any points of x and then plot them on the graph. But we usually choose values for which calculating y is easier. This makes plotting the graph simpler. We can also find the values by putting different values of y in the equation to get different values for x. Either way, we need points satisfying the equation to plot its graph
      parallel
      General
      Maths-

      A= 5x-3y +2z, B= 4x-2y+3z, C= 6x-4y -4z, Find A-B+C

      Answer:
      • Hint:
      ○    Put values of A, B, and C in expression A-B+C to get the answer.
      • Step by step explanation:
      ○    Given:
      A= 5x-3y +2z,
      B= 4x-2y+3z,
      C= 6x-4y -4z,
      Find A-B+C
      ○    Step 1:
      ○    Put values of A, B and C in (A-B+C)
      We get,
      A-B+C
      rightwards double arrow (5x-3y +2z) - (4x-2y+3z) + (6x-4y -4z)
      ○    Step 2:
      ○    Group like terms
      rightwards double arrow (5x-4x +6x) - (3y-2y+4y) + (2z-3z -4z)
      rightwards double arrow 7x - 5y - 5z
      • Final Answer:
      Hence, the value of A-B+C is 7x - 5y - 5z.

      A= 5x-3y +2z, B= 4x-2y+3z, C= 6x-4y -4z, Find A-B+C

      Maths-General
      Answer:
      • Hint:
      ○    Put values of A, B, and C in expression A-B+C to get the answer.
      • Step by step explanation:
      ○    Given:
      A= 5x-3y +2z,
      B= 4x-2y+3z,
      C= 6x-4y -4z,
      Find A-B+C
      ○    Step 1:
      ○    Put values of A, B and C in (A-B+C)
      We get,
      A-B+C
      rightwards double arrow (5x-3y +2z) - (4x-2y+3z) + (6x-4y -4z)
      ○    Step 2:
      ○    Group like terms
      rightwards double arrow (5x-4x +6x) - (3y-2y+4y) + (2z-3z -4z)
      rightwards double arrow 7x - 5y - 5z
      • Final Answer:
      Hence, the value of A-B+C is 7x - 5y - 5z.
      General
      Maths-

      For an obtuse triangle, the circumcentre lies

      Answer:
      For obtuse triangle, the circumcentre lies outside the triangle.

      For an obtuse triangle, the circumcentre lies

      Maths-General
      Answer:
      For obtuse triangle, the circumcentre lies outside the triangle.
      General
      Maths-

      For a right triangle, the circumcentre lies

      Answer:
      For a right triangle, the circumcentre lies on the triangle.
      a. on the triangle.
       

      For a right triangle, the circumcentre lies

      Maths-General
      Answer:
      For a right triangle, the circumcentre lies on the triangle.
      a. on the triangle.
       
      parallel
      General
      Maths-

      How does adding and subtracting polynomials compare to adding and subtracting integers?

      Explanation:
      • We have to find out how does adding and subtracting polynomials compare to adding and subtracting integers.
      Step 1 of 1:
      In adding and subtracting of integers, only numbers are involved but in adding and subtracting polynomial there is involvement of variable and constants both.
      In polynomial, we can add only like terms.

      How does adding and subtracting polynomials compare to adding and subtracting integers?

      Maths-General
      Explanation:
      • We have to find out how does adding and subtracting polynomials compare to adding and subtracting integers.
      Step 1 of 1:
      In adding and subtracting of integers, only numbers are involved but in adding and subtracting polynomial there is involvement of variable and constants both.
      In polynomial, we can add only like terms.
      General
      Maths-

      For an acute triangle, the circumcentre lies

      Answer:
      For an acute triangle, the circumcentre lies inside the triangle.
      b. inside the triangle.

      For an acute triangle, the circumcentre lies

      Maths-General
      Answer:
      For an acute triangle, the circumcentre lies inside the triangle.
      b. inside the triangle.
      General
      Maths-

      The point of concurrency of the three perpendicular bisectors of a triangle is called the ________ of the
      triangle.

      Answer:
      ]The point of concurrency of the three perpendicular bisectors of a triangle is called the circumcentre of the triangle.
      b. circumcentre.

      The point of concurrency of the three perpendicular bisectors of a triangle is called the ________ of the
      triangle.

      Maths-General
      Answer:
      ]The point of concurrency of the three perpendicular bisectors of a triangle is called the circumcentre of the triangle.
      b. circumcentre.
      parallel

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