The given diagram shows stages during embryo development showing geometric and arithematic phase. It can be labelled as A- Zygote divided, B- Geometric Phase, C-Arithmetic phase.
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338161
In mathematical expression of arithmetic growth \(\mathrm{L}_{\mathrm{t}}=\mathrm{L}_{0}+\mathrm{rt}\), 'r' represents____
1 Growth rate
2 Growth deviation
3 Length at time ' \(t\) '
4 Initial size
Explanation:
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero', \({\rm{r = }}\) growth rate / elongation per unit time
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338162
In most systems, the initial growth is _ \(\mathrm{A}_{-}\), and it B_ rapidly thereafter - at an _C_
1 A - slow (lag phase), \(\mathrm{B}\) - exponential rate (log or exponential phase), \(\mathrm{C}\) - increases
2 A - slow (lag phase), B - decreases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
3 A - slow (lag phase), \(\mathrm{B}\) - increases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
4 A - slow (log phase), \(\mathrm{B}\) - increases, C - exponential rate (lag or exponential phase)
Explanation:
In most systems, the initial growth is slow (lag phase), and it increases rapidly thereafter - at an exponential rate (log or exponential phase).
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338163
Which mathematical expression among the following represents arithmetic growth?
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero',\({\rm{r = }}\) growth rate / elongation per unit time
The given diagram shows stages during embryo development showing geometric and arithematic phase. It can be labelled as A- Zygote divided, B- Geometric Phase, C-Arithmetic phase.
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338161
In mathematical expression of arithmetic growth \(\mathrm{L}_{\mathrm{t}}=\mathrm{L}_{0}+\mathrm{rt}\), 'r' represents____
1 Growth rate
2 Growth deviation
3 Length at time ' \(t\) '
4 Initial size
Explanation:
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero', \({\rm{r = }}\) growth rate / elongation per unit time
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338162
In most systems, the initial growth is _ \(\mathrm{A}_{-}\), and it B_ rapidly thereafter - at an _C_
1 A - slow (lag phase), \(\mathrm{B}\) - exponential rate (log or exponential phase), \(\mathrm{C}\) - increases
2 A - slow (lag phase), B - decreases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
3 A - slow (lag phase), \(\mathrm{B}\) - increases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
4 A - slow (log phase), \(\mathrm{B}\) - increases, C - exponential rate (lag or exponential phase)
Explanation:
In most systems, the initial growth is slow (lag phase), and it increases rapidly thereafter - at an exponential rate (log or exponential phase).
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338163
Which mathematical expression among the following represents arithmetic growth?
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero',\({\rm{r = }}\) growth rate / elongation per unit time
The given diagram shows stages during embryo development showing geometric and arithematic phase. It can be labelled as A- Zygote divided, B- Geometric Phase, C-Arithmetic phase.
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338161
In mathematical expression of arithmetic growth \(\mathrm{L}_{\mathrm{t}}=\mathrm{L}_{0}+\mathrm{rt}\), 'r' represents____
1 Growth rate
2 Growth deviation
3 Length at time ' \(t\) '
4 Initial size
Explanation:
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero', \({\rm{r = }}\) growth rate / elongation per unit time
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338162
In most systems, the initial growth is _ \(\mathrm{A}_{-}\), and it B_ rapidly thereafter - at an _C_
1 A - slow (lag phase), \(\mathrm{B}\) - exponential rate (log or exponential phase), \(\mathrm{C}\) - increases
2 A - slow (lag phase), B - decreases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
3 A - slow (lag phase), \(\mathrm{B}\) - increases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
4 A - slow (log phase), \(\mathrm{B}\) - increases, C - exponential rate (lag or exponential phase)
Explanation:
In most systems, the initial growth is slow (lag phase), and it increases rapidly thereafter - at an exponential rate (log or exponential phase).
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338163
Which mathematical expression among the following represents arithmetic growth?
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero',\({\rm{r = }}\) growth rate / elongation per unit time
The given diagram shows stages during embryo development showing geometric and arithematic phase. It can be labelled as A- Zygote divided, B- Geometric Phase, C-Arithmetic phase.
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338161
In mathematical expression of arithmetic growth \(\mathrm{L}_{\mathrm{t}}=\mathrm{L}_{0}+\mathrm{rt}\), 'r' represents____
1 Growth rate
2 Growth deviation
3 Length at time ' \(t\) '
4 Initial size
Explanation:
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero', \({\rm{r = }}\) growth rate / elongation per unit time
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338162
In most systems, the initial growth is _ \(\mathrm{A}_{-}\), and it B_ rapidly thereafter - at an _C_
1 A - slow (lag phase), \(\mathrm{B}\) - exponential rate (log or exponential phase), \(\mathrm{C}\) - increases
2 A - slow (lag phase), B - decreases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
3 A - slow (lag phase), \(\mathrm{B}\) - increases, \(\mathrm{C}\) - exponential rate (log or exponential phase)
4 A - slow (log phase), \(\mathrm{B}\) - increases, C - exponential rate (lag or exponential phase)
Explanation:
In most systems, the initial growth is slow (lag phase), and it increases rapidly thereafter - at an exponential rate (log or exponential phase).
BIOXI15: PLANT GROWTH AND DEVELOPMENT
338163
Which mathematical expression among the following represents arithmetic growth?
In arithmetic growth pattern, On plotting the length of the organ against time, a linear curve is obtained. Mathematically, it is expressed as \({{\rm{L}}_{\rm{t}}}{\rm{ = }}{{\rm{L}}_{\rm{0}}}{\rm{ + rt}}\) Where, \({{\rm{L}}_{\rm{t}}}\) = length at time ' \(\mathrm{t}\) ', \({{\rm{L}}_{\rm{0}}}\) = length at time 'zero',\({\rm{r = }}\) growth rate / elongation per unit time
