269234
The length, breadth and thickness of a metal sheet are\(4.234 \mathrm{~m}, 1.005 \mathrm{~m}\), and \(2.01 \mathrm{~cm}\) respectively then the volume of the sheet is
1 \(0.08 \mathrm{~m}^{3}\)
2 \(0.0855 \mathrm{~m}^{3}\)
3 \(0.085 \mathrm{~m}^{3}\)
4 \(0.087 \mathrm{~m}^{3}\)
Explanation:
\(V=l b w\)
Units and Measurements
269235
The sides of rectangle are\((10.5 \pm 0.2) \mathrm{cm}\) and \((5.2 \pm 0.1) \mathrm{cm}\) then its perimeter with error limit.
1 \((31.4 \pm 0.6) \mathrm{cm}\)
2 \((31.4 \pm 0.2) \mathrm{cm}\)
3 \((31.4 \pm 0.1) \mathrm{cm}\)
4 \((31.4 \pm 0.9) \mathrm{cm}\)
Explanation:
\(p=2(l+b)=\Delta p=2(\Delta l+\Delta b)\)
Units and Measurements
269236
If the ratio of fundamental units in two systems are 2:3 the ratio of force in these two systems is
1 \(1: 3\)
2 \(1: 1\)
3 \(3: 1\)
4 \(1: 27\)
Explanation:
\(\frac{M_{1}}{M_{2}}=\frac{L_{1}}{L_{2}}=\frac{T_{1}}{T_{2}}=\frac{2}{3}\) and \(\frac{F_{1}}{F_{2}}=\frac{M_{1} L_{1} T_{1}^{-2}}{M_{2} L_{2} T_{2}^{-2}}\)
Units and Measurements
269237
If \(L, R, C\), and \(V\), respectively, represent inductance, resistance, capacitance and potential difference, then the dimensions of L/RCV are the same as those of
1 Charge
2 1/Charge
3 Current
4 1/Current
Explanation:
\(\frac{L}{R C V}=\frac{L}{t\left(L \cdot \frac{d i}{d t}\right)}\)
269234
The length, breadth and thickness of a metal sheet are\(4.234 \mathrm{~m}, 1.005 \mathrm{~m}\), and \(2.01 \mathrm{~cm}\) respectively then the volume of the sheet is
1 \(0.08 \mathrm{~m}^{3}\)
2 \(0.0855 \mathrm{~m}^{3}\)
3 \(0.085 \mathrm{~m}^{3}\)
4 \(0.087 \mathrm{~m}^{3}\)
Explanation:
\(V=l b w\)
Units and Measurements
269235
The sides of rectangle are\((10.5 \pm 0.2) \mathrm{cm}\) and \((5.2 \pm 0.1) \mathrm{cm}\) then its perimeter with error limit.
1 \((31.4 \pm 0.6) \mathrm{cm}\)
2 \((31.4 \pm 0.2) \mathrm{cm}\)
3 \((31.4 \pm 0.1) \mathrm{cm}\)
4 \((31.4 \pm 0.9) \mathrm{cm}\)
Explanation:
\(p=2(l+b)=\Delta p=2(\Delta l+\Delta b)\)
Units and Measurements
269236
If the ratio of fundamental units in two systems are 2:3 the ratio of force in these two systems is
1 \(1: 3\)
2 \(1: 1\)
3 \(3: 1\)
4 \(1: 27\)
Explanation:
\(\frac{M_{1}}{M_{2}}=\frac{L_{1}}{L_{2}}=\frac{T_{1}}{T_{2}}=\frac{2}{3}\) and \(\frac{F_{1}}{F_{2}}=\frac{M_{1} L_{1} T_{1}^{-2}}{M_{2} L_{2} T_{2}^{-2}}\)
Units and Measurements
269237
If \(L, R, C\), and \(V\), respectively, represent inductance, resistance, capacitance and potential difference, then the dimensions of L/RCV are the same as those of
1 Charge
2 1/Charge
3 Current
4 1/Current
Explanation:
\(\frac{L}{R C V}=\frac{L}{t\left(L \cdot \frac{d i}{d t}\right)}\)
269234
The length, breadth and thickness of a metal sheet are\(4.234 \mathrm{~m}, 1.005 \mathrm{~m}\), and \(2.01 \mathrm{~cm}\) respectively then the volume of the sheet is
1 \(0.08 \mathrm{~m}^{3}\)
2 \(0.0855 \mathrm{~m}^{3}\)
3 \(0.085 \mathrm{~m}^{3}\)
4 \(0.087 \mathrm{~m}^{3}\)
Explanation:
\(V=l b w\)
Units and Measurements
269235
The sides of rectangle are\((10.5 \pm 0.2) \mathrm{cm}\) and \((5.2 \pm 0.1) \mathrm{cm}\) then its perimeter with error limit.
1 \((31.4 \pm 0.6) \mathrm{cm}\)
2 \((31.4 \pm 0.2) \mathrm{cm}\)
3 \((31.4 \pm 0.1) \mathrm{cm}\)
4 \((31.4 \pm 0.9) \mathrm{cm}\)
Explanation:
\(p=2(l+b)=\Delta p=2(\Delta l+\Delta b)\)
Units and Measurements
269236
If the ratio of fundamental units in two systems are 2:3 the ratio of force in these two systems is
1 \(1: 3\)
2 \(1: 1\)
3 \(3: 1\)
4 \(1: 27\)
Explanation:
\(\frac{M_{1}}{M_{2}}=\frac{L_{1}}{L_{2}}=\frac{T_{1}}{T_{2}}=\frac{2}{3}\) and \(\frac{F_{1}}{F_{2}}=\frac{M_{1} L_{1} T_{1}^{-2}}{M_{2} L_{2} T_{2}^{-2}}\)
Units and Measurements
269237
If \(L, R, C\), and \(V\), respectively, represent inductance, resistance, capacitance and potential difference, then the dimensions of L/RCV are the same as those of
1 Charge
2 1/Charge
3 Current
4 1/Current
Explanation:
\(\frac{L}{R C V}=\frac{L}{t\left(L \cdot \frac{d i}{d t}\right)}\)
269234
The length, breadth and thickness of a metal sheet are\(4.234 \mathrm{~m}, 1.005 \mathrm{~m}\), and \(2.01 \mathrm{~cm}\) respectively then the volume of the sheet is
1 \(0.08 \mathrm{~m}^{3}\)
2 \(0.0855 \mathrm{~m}^{3}\)
3 \(0.085 \mathrm{~m}^{3}\)
4 \(0.087 \mathrm{~m}^{3}\)
Explanation:
\(V=l b w\)
Units and Measurements
269235
The sides of rectangle are\((10.5 \pm 0.2) \mathrm{cm}\) and \((5.2 \pm 0.1) \mathrm{cm}\) then its perimeter with error limit.
1 \((31.4 \pm 0.6) \mathrm{cm}\)
2 \((31.4 \pm 0.2) \mathrm{cm}\)
3 \((31.4 \pm 0.1) \mathrm{cm}\)
4 \((31.4 \pm 0.9) \mathrm{cm}\)
Explanation:
\(p=2(l+b)=\Delta p=2(\Delta l+\Delta b)\)
Units and Measurements
269236
If the ratio of fundamental units in two systems are 2:3 the ratio of force in these two systems is
1 \(1: 3\)
2 \(1: 1\)
3 \(3: 1\)
4 \(1: 27\)
Explanation:
\(\frac{M_{1}}{M_{2}}=\frac{L_{1}}{L_{2}}=\frac{T_{1}}{T_{2}}=\frac{2}{3}\) and \(\frac{F_{1}}{F_{2}}=\frac{M_{1} L_{1} T_{1}^{-2}}{M_{2} L_{2} T_{2}^{-2}}\)
Units and Measurements
269237
If \(L, R, C\), and \(V\), respectively, represent inductance, resistance, capacitance and potential difference, then the dimensions of L/RCV are the same as those of
1 Charge
2 1/Charge
3 Current
4 1/Current
Explanation:
\(\frac{L}{R C V}=\frac{L}{t\left(L \cdot \frac{d i}{d t}\right)}\)
