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[object Object]
40cm
You will get the maximum volume in the case of a sphere. You can use the formula for the surface of a sphere to calculate the radius; from there, you can calculate the corresponding volume.Similarly, for other objects, such as a cube, the volume you get will be less.
the mass of an object measures the amount of matter in a object.
It's not possible to calculate the answer with the information given.An object with a mass of 15 kg can be dropped from a building of any height.
[object Object]
Apply maximum force for the longest possible time interval
40cm
The range for all the integral types in C are implementation-defined. To ascertain the range for a specific implementation, include the <limits.h> header where the following macros are defined: CHAR_BIT Number of bits in a char object (byte). SCHAR_MIN Minimum value for an object of type signed char. SCHAR_MAX Maximum value for an object of type signed char. UCHAR_MAX Maximum value for an object of type unsigned char. CHAR_MIN Minimum value for an object of type char. CHAR_MAX Maximum value for an object of type char. MB_LEN_MAX Maximum number of bytes in a multibyte character for any locale. SHRT_MIN Minimum value for an object of type short int. SHRT_MAX Maximum value for an object of type short int. USHRT_MAX Maximum value for an object of type unsigned short int. INT_MIN Minimum value for an object of type int. INT_MAX Maximum value for an object of type int. UINT_MAX Maximum value for an object of type unsigned int. LONG_MIN Minimum value for an object of type long int. LONG_MAX Maximum value for an object of type long int. ULONG_MAX Maximum value for an object of type unsigned long int. LLONG_MIN Minimum value for an object of type long long int. LLONG_MAX Maximum value for an object of type long long int. ULLONG_MAX Maximum value for an object of type unsigned long long int. Similarly, include the <float.h> header for the range of all floating-point types. FLT_RADIX Base for all floating-point types (float, double and long double). FLT_MANT_DIG DBL_MANT_DIG LDBL_MANT_DIG Precision of significand, i.e. the number of digits that conform the significand. FLT_DIG DBL_DIG LDBL_DIG Number of decimal digits that can be rounded into a floating-point and back without change in the number of decimal digits. FLT_MIN_EXP DBL_MIN_EXP LDBL_MIN_EXP Minimum negative integer value for the exponent that generates a normalized floating-point number. FLT_MIN_10_EXP DBL_MIN_10_EXP LDBL_MIN_10_EXP Minimum negative integer value for the exponent of a base-10 expression that would generate a normalized floating-point number. FLT_MAX_EXP DBL_MAX_EXP LDBL_MAX_EXP Maximum integer value for the exponent that generates a normalized floating-point number. FLT_MAX_10_EXP DBL_MAX_10_EXP LDBL_MAX_10_EXP Maximum integer value for the exponent of a base-10 expression that would generate a normalized floating-point number. FLT_MAX DBL_MAX LDBL_MAX Maximum finite representable floating-point number. FLT_EPSILON DBL_EPSILON LDBL_EPSILON Difference between 1 and the least value greater than 1 that is representable. FLT_MIN DBL_MIN LDBL_MIN Minimum representable floating-point number. FLT_ROUNDS Rounding behavior. Possible values: -1 undetermined 0 toward zero 1 to nearest 2 toward positive infinity 3 toward negative infinity Applies to all floating-point types (float, double and long double). FLT_EVAL_METHOD Properties of the evaluation format. Possible values: -1 undetermined 0 evaluate just to the range and precision of the type 1 evaluate float and double as double, and long double as long double. 2 evaluate all as long double Other negative values indicate an implementation-defined behavior. Applies to all floating-point types (float, double and long double). DECIMAL_DIG Number of decimal digits that can be rounded into a floating-point type and back again to the same decimal digits, without loss in precision.
You will get the maximum volume in the case of a sphere. You can use the formula for the surface of a sphere to calculate the radius; from there, you can calculate the corresponding volume.Similarly, for other objects, such as a cube, the volume you get will be less.
Volume is length*width*height in cubic units. If this is not possible then when an object is immersed in water the water displaced is equal to the volume of the object which was discovered by Archimedes.
[object Object]
Up to 999999, one short of a million.
Yes virtual object is possible
the mass of an object measures the amount of matter in a object.
It's not possible to calculate the answer with the information given.An object with a mass of 15 kg can be dropped from a building of any height.
It means: * Calculate the density of an object * Calculate the density of its pieces * Compare