Yes.
True.
The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.
the answer is 430,000,000 if the exponent is positive ;)
scientific notation tells how many times you will move or add zero either left(positive) or right (negative). exponent tells you how many times you will multiply its coefficient.
Scientific notation is a way to express very large or very small numbers. For very large exponent is positive; for very small exponent is negative. For example, 1,000,000 is 1 x 10 to the plus 6 exponent; 0.000001 is 1 x 10 to the negative 6 exponent
If the exponent is not negative, then a number written in scientific notation is greater than or equal to 1.
The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.The negative exponent is simply the reciprocal of its positive value.For example, a-b = 1/abIt is particularly important wherever scientific notation is used.
the answer is 430,000,000 if the exponent is positive ;)
scientific notation tells how many times you will move or add zero either left(positive) or right (negative). exponent tells you how many times you will multiply its coefficient.
Scientific notation is a way to express very large or very small numbers. For very large exponent is positive; for very small exponent is negative. For example, 1,000,000 is 1 x 10 to the plus 6 exponent; 0.000001 is 1 x 10 to the negative 6 exponent
If the exponent is not negative, then a number written in scientific notation is greater than or equal to 1.
8.73E4, scientific notation involves a number from 1 to 9 and the appropriate exponernt of ten represented by 'E". the exponent can be positive or negative.
scientific notation is a single digit or digit and decimal followed by the letter E and the exponent of ten to be multiplied by the number.(or number of places to shift the decimal point to the right(positive exponent) or left(negative exponent)) 32000000 would be expressed as 3.2E7
If the exponent is b, then you move the decimal point b places to the right - inserting zeros if necessary.
Scientific notation is a way to express either a very large, or a very small number.10x5.34 is an example of scientific notation. So, move the decimal point to the right (since there is a positive exponent). It then becomes 53,000.If there is a negative exponent, move the decimal point to the left instead of the right. 10x4.6-3 would become 0.0046.
Whether the number is positive or negative is not relevant. What matters is the sign of the exponent. If THAT is positive then the decimal point is moved to the right.
If the number in sci. notation has a positive exponent, move the decimal to the right the same number of spaces as the exponent's number. For example: 5.78 x 103 = 5780 If the exponent is negative, move the decimal to the left the same number of spaces as the exponent's number. For example: 2.945 x 10-5 = 0.00002945
From the starting point of 6378000.0, shift 6 decimal places to the left to obtain the positive exponent for base 10. Therefore, the number in scientific notation is: 6.378 x 10^6