Basic Geometrical Concepts Solve Online

Geometrical is a study of structural mathematics .Basic geometrical has the concept of shapes and structure of an object. It contains two dimensional and three dimensional objects. In this article basic geometrical concepts solve online we are going to see about some basic geometric problems through online.
Generally online help means that here tutor and student should communicate directly with help of online chatting. Student can get more geometrical help and idea from tutor through online with help of chatting. It may be in audio or non audio.


Basic Geometrical Concepts Shapes Solve Online :

Basic geometrical concepts are plane, point, line, angle, ray, two dimensional objects, and three dimensional objects. Main purpose of using geometry is finding area, volume and perimeter of the given shape.

Basic geometrical concepts:

Two dimensional objects:

Square
Rectangle
Triangle
Circle
Parallelogram
Trapezoid

Three dimensional objects:

Cylinder
Cone
Cube
Sphere
Hemisphere
Prism
Pyramid
3d geometry shapes

Solve Example Problems in Basic Geometrical Concepts:

Solve Example problems in basic geometrical concepts:

Example problem 1:

Find the angle of triangle from the given figure?

Geometry-triangle

Solution:

Given data:

Two angles of triangle is 550 and 380

Solve the third angle of triangle

Total angle of triangle=1800

55+38+x=180

93+x=180

X=180-93

X=870

Third angle of triangle is 870

Example problem 2:

Which one is 3D shape of geometrical object?

Geometry- shapes

Solution:

Option (a)-Two dimensional object(square)

Option (b)-Two dimensional objects(Circle)

Option (c)-Three dimensional object(Parallelogram)

Option(d)-Three dimensional object(Cone)

Example problem 3:

How many edges and vertices in the cube?

Cube

Solution:

Cube having 12 edges

Cube having 8 vertices

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So the cube having top portion of four edges

Side portion of four edges

Bottom portion of four edges

So totally have 12 edges

Vertices mean nothing but corner point of the given shapes. When the two edges or lines are meeting It will produce the vertices

Solve Proving Proofs

Mathematical statement considered the sequence of statements by proofs, every statement being adjusted with some definition or a proposition or an axiom that is before launched by the method of deduction using only the permitted logical rules. Repeatedly we prove a proposition straightly from what is given in the proposition. But so many times it is easier to prove a same proposition not proving the proposition by itself,

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Solve Proving Proofs - Types of Proofs:

Solve Proving Proofs Indirect Method:

Solve proving proofs - Indirect method:

Prove the given function f : R  =>  R defined by f(x)  =  2x  +  5 is one – one.

Sol :  A function is one – one if  f(x1)  =  f(x2)  => x1  =  x2.

Using this we have to show that “ 2x1 + 5  = 2x2  +  5” => “  x1  =  x2”.This is of the form p  =>  q, where , p is 2x1  +  5 =  2x2  +  5 and q : x1  =  x2. so this is the direct method proofing.

We can also prove the same by using contrapositive of the statement. Now contrapositive of this statement is ~ q=>  ~ p, is, contrapositive of “if f(x1)  =  f(x2), then  x1  =  x2” is “if x1  =  x2, then f(x1) =  f(x2)”.

Now                 x1  !=   x2

=>                   2x1  !=   2x2

=>                   2x1  +  5  !=   2x2  + 5

=>                   f(x1)  !=   f(x2).
Solve Proving Proofs of Direct Approach:

Solve Proving Proofs -direct Proof:


It  is the proof of  a proposition in which we directly start the proof  with what is given in the proposition.

1)Straight forward approach.

2) Mathematical Induction approach.

3)Proofs By cases or by   exhaustion.

Solve Proving Proofs -Indirect Proof:

Instead of proving the proposition directly, we establish the proof of the proposition through  proving a proposition which is equivalent to the given proposition.

1)Proofs  by contradiction.

2)Proofs by using contrapositive statement.

3)Proofs by a by a counter example.


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Solving Proving Proofs - some Examples for Proving Proofs:

Solving proving proofs - Direct Method:

Prove the given function f:  R  =>  R

Defined by f(x) = 2x + 5 is one – one.

Sol :  Note that a function f is one – one if

f(x1)  =  f(x2)    x1  =  x2 (definition of one – one function)

Now given that   f(x1)  =  f(x2),

=> 2 x1 +  5 = 2 x2 +  5

=>                 2 x1  +  5  –  5  = 2 x2  +  5  –  5(adding the same quantity on both sides)

=>                 2 x1  +  0  =  2 x2  +  0

=>                 2 x1  =  2 x2 (using additive identity of real number)

=>                 (2)/(2) x1  =  (2)/(2) x2 (dividing by the same non zero quantity)

=>                 x1  =  x2.

Sets and Operations

Sets and relations are two of the most important concepts in mathematics that is taught in middle school and is widely used in practical mathematics. A set is a collection of things such as letters, numbers, words, things etc. For example: {woodcraft construction toys, building blocks, construction sets}. This is a set of educational toys such as woodcraft construction toys and so on. Sets also functions different relationship in mathematics. Let’s have a look at the same in this post.

Union of Sets: When two sets are compared and a final set is created with the elements of set A and set B, the set created is called Union of sets. It is referred as A U B. While creating the union of sets, a single element if occurs in both the sets is used only once in the final set.

For example:
A = { Cloth toys for babies , Wooden play toys for kids , Soft toys for babies, Barbie Doll}
B = {Ludo, Chess, Snakes and Ladder, Barbie Doll}
A U B = {

Cloth toys for babies , Wooden play toys for kids, Soft toys for babies, Barbie Doll, Ludo, Chess, Snakes and Ladder}Intersection of Sets: When two sets are compared and a final set is created using the only common elements of set A and set B, then it is called as intersection of sets. It is referred as A ? B.

For example:
A = {Hair, Eye, Nose, Ear, Lips, Hands, Legs}
B = [Hair, Eye, Nose, Ear, Lips, Teeth, Tongue}
A ? B = {Hair, Eye, Nose, Lips}
Difference of Sets: The difference of sets is nothing but the set that includes the unique elements of set A and B. It is referred as A –B. For example:
A = {1, 2, 3, 4, 5}
B = {2, 4, 6, 8, 10}
A – B = {1, 3, 5, 8, 10}
These are some of the basic relations in sets.

Geometric Ray

We know that, a ray is an important topic of line, and geometrical chapter in mathematics subject. In mathematics, a ray is defined as several ways, when we have seen a vector, a ray vector is going to one point to other point, and it is called as rays. In this geometrical part, ray is used in mostly as the lines and it’s relevant. In this article we are going to explain about the geometric ray, and its definitions.

Definition of the Geometric Ray:

Generally a ray is defined as many ways; it is one part of line.
It has a straight line with one end point and other direction (side) extends to infinity.
And a ray is start with end point, and then other point on the ray next.

For example:

Picture representation for geometric ray:

Geometric rays

If suppose the above ray (figure) is vector ray means, a ray is vector (xy) form of point x to point y.
And a ray is start with end point x, and other side goes to infinity on next. It is named ray.

Note:

If suppose the given ray (see figure) is vector ray means, a ray is vector (xy) form of point x to point y.

Ray is` vec (XY)` .

Exact definition for ray:

Ray is straight line that starts at a point and continues outward in another direction. And a ray is start with end point, and then other point on the ray next.

Geometric rays
Examples Pictures and Explain in Geometric Rays:

Example problem 1: Draw a straight line, with two points ray figure.

Figure:

example figure for ray

Example problem 2: Draw the both opposite side rays.

The ray figures:

example figure for ray, and    example figure for ray

These rays are mostly used in the sphere intersection problems.

Example problem 3: Draw the angle figure used on 2 ray figures with 1 common end point:

Angle figure in ray:

example figure for ray

Example problem 4: Draw the parallel line, and use the ray with intersect (cross) the parallel line.

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ray example

These all above the general explanations and example figures are making clear about the geometric ray definition and concept.

Sequence Listing

In this article, we are going to see about the sequence listing. There are two types of sequences

1. Arithmetic sequence and

2. Geometric sequence.

Arithmetic sequence means, the sequence of numbers such that the difference between two consecutive members of the sequence is a constant. Geometric sequence means, the sequence of numbers such that the ratio between two consecutive members of the sequence is a constant. The sequence listing formulas and example problems are given below.



Formula for arithmetic sequence:

nth term of the sequence : an = a1 + (n - 1)d

Series of the sequence: sn = (n(a_1 + a_n))/2

Formula for geometric sequence:

nth term of the sequence: an = a1 * rn-1

Series of the sequence: sn = (a_1(1-r^n))/(1 - r)
Example Problems for Sequence Listing:

Example problem 1:

Find the 15th term of the series 2, 4, 6, 8, 10,. ....

Solution:

First term of the series, a1 = 2

Difference of two consecutive terms, d = 4 - 2 = 2

n = 15

The formula to find the nth term of an arithmetic series, a_n = a_1 + (n-1)d

So, the 15th term of the series 2, 4, 6, 8, 10....... = 2 + (15 - 1) 2

= 2 + 14 * 2

After simplify this, we get

= 2 + 28

= 30

So, the 15th term of the sequence 2, 4, 6, 8, 10,.... is 30

Series of the arithmetic sequence: sn = (n(a_1 + a_n))/2

 s_15 = [15(2 + 30)]/(2)

 s_15 = [15(32)]/(2)

 s_15 = (480)/(2)

After simplify this, we get

 s_15 = 240



Example problem 2:

Find out the 11th term of a geometric sequence if a1 = 4 and the common ratio (C.R) r = 2

Solution:

Use the formula a_n = a_1 * r^(n-1) that gives the nth term to find a_11 as follows

a_11 = a_1 * r^(11-1)

= 4 * (2)10

= 4 * 1024

After simplify this, we get

= 4096

The 11th term of a geometric sequence is

Series of the sequence: sn = (a_1(1-r^n))/(1 - r)

 s_11 = [4(1 - 2^11)]/(1 - 2)

= [4(-2048)]/(-1)

After simplify this, we get

s_11 = 8192

The above examples are helpful study of sequences listing.

Mathematical Symmetry

In mathematical when one shape becomes like another if you rotate over, slide or twist is called the symmetry. In mathematical normally symmetry is classified into three types. Thus three types of symmetry are reflection symmetry, rotational symmetry and point symmetry. Let us see mathematical symmetry in this article.


Mathematical Symmetry:

Symmetry:

When one shape becomes like another if you rotate over, slide or twist it is called as symmetry.

Types of symmetry:

Reflection symmetry
Rotational symmetry
Point symmetry

Definition of reflection symmetry:

Reflection symmetry is the simple type of symmetry. One half of the reflection is the reflection of the other half is known as reflection of symmetry.

Definition of Rotational symmetry:

The shape or image can be rotated on various quantities and it still shows the same is called as rotational symmetry.

Definition of Point symmetry:

If the image is placed the same distance from the starting but in the opposite path then the image has point symmetry.
Brief Explanation about Mathematical Symmetry:

Reflection symmetry:

One half of the reflection is the reflection of the other half is known as reflection of symmetry.

Example:

mathematical symmetry

Here the image (under the line) gives the perfect reflection of the above image.

Rotational symmetry:

The shape or image can be rotated on various quantities and it still shows the same is called as rotational symmetry.

Example:

mathematical symmetry

In above figure the second image represents the rotated structure of first image.

Point symmetry:

If the image is placed the same distance from the starting but in the opposite path then the image has point symmetry.

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Example:

mathematical symmetry

From the above figure we understand the point symmetry. In above figure the images are placed the same distance from the starting but in the opposite path and it similar to rotational symmetry of order 2.

Adjacent and Opposite Angles

Adjacent angle:

Two angles having a general side and general vertex of that angle is adjacent angles. In adjacent angle, angle that forces never meets. The adj is the short form of the adjacent angle.

Opposite angle:

Intersect two line is framed by four angle.The angles are straightly opposite to other angle is known as opposite angle. The opposite angle is also known as vertically opposite angels.

In this article we see in detail about adjacent and opposite angles.

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Example 1: Adjacent and Opposite Angles:

Following diagram to find the unknown angle a, b , c

example problem for adjacent and opposites angles

Solution:

In this problem given angle is the EFG = 114 degree

Given angle is EOF

Unknown angle is FOG, GOH and HOE

In this diagram angle EOF and angle GOH is equal, since it is opposite angle, written as EOF = GOH

Therefore

Angle EOF = 114

Angle GOH = 114

Angle dimension is 180 degree

EOF+FOG=180

114+c=180

c=180-114

c=66

Angle c and angle a is opposite angle so a=66.

Answer is:

a=66

b=114

c=66
Example 2: Adjacent and Opposite Angles:

Following diagram to find the unknown angle a, b , c

example problem for adjacent and opposite angles

Solution:

In this problem given angle is the EFG = 101 degree

Given angle the angles EOF.

Unknown angle is FOG, GOH and HOE

In this diagram angle EOF and angle GOH is equal since they are opposite angles, written as EOF = GOH

Therefore

Angle EOF = 101

Angle GOH = 101

Angle dimension is 180 degree

EOF+FOG=180

101+c=180

c=180-101

c=79

Angle c and angle a is opposite angle so a=79.

Answer is:

a=79

b=101

c=79

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Example 3: Adjacent and Opposite Angles:

Given complementary angle, angle E is the 74 degree, find the unknown adjacent angle

example for adjacent and opposites angles

Solution:

In complementary angle measurement of the angle is 90 degree

Given the value of angle is 74°

Subtracting form angle measurement of the complementary angle and given angle

90° – 74° = 16°

Answer for this problem is 16 degree.
Example 4: Adjacent and Opposite Angles:

Given complementary angle, angle E is the 71 degree, find the unknown adjacent angle

example for adjacent and opposites angles

Solution:

In complementary angle measurement of the angle is 90 degree

Given the value of angle are 71°

Subtracting form angle measurement of the complementary angle and given angle

90° – 71° = 19°

Answer for this problem is 19 degree.