A body, initially at rest, is acted upon by four forces $\mathrm{F}{1}=\hat{\mathrm{i}}+\hat{\mathrm{k}}, \mathrm{F}{2}=2 \hat{\mathrm{j}}+3 \hat{\mathrm{k}}, \mathrm{F}{3}=3 \hat{\mathrm{i}}$ and $\mathrm{F}{4}=3 \hat{\mathrm{j}}-4 \hat{\mathrm{i}} .$ In which plane will the body move?
== 2
What is the output of this formula $$ \left(\frac{\mathrm{m}{1}+\mathrm{m}{2}}{2}\right) \mathrm{g} $$ , please answer?
== 3
In the derivation of expression for peak percent overshoot,
$\mathrm{M}_{\mathrm{p}}=\exp \left(\frac{-\pi \xi}{\sqrt{1-\xi^{2}}}\right) \times 100 \%,$ which one of the following conditions is NOT required?
== 4
According to the relation $\mathrm{H}=\mathrm{I}^{2} \mathrm{Rt},$ where $\mathrm{I}$ is current, $\mathrm{R}$ is resistance and t is time. If the errors in the measurement of $\mathrm{I}, \mathrm{R}$ and $\mathrm{t}$ are $3 \%, 4 \%$ and $6 \%$ respectively then error in the measurement of $\mathrm{H}$ is :
== 5
$$ \begin{aligned} &\text { In the derivation of expression for peak percent overshoot, }\ &\mathrm{M}_{\mathrm{p}}=\exp \left(\frac{-\pi \xi}{\sqrt{1-\xi^{2}}}\right) \times 100 \%, \text { which one of the following conditions is NOT required? } \end{aligned} $$
Not rendering properly, if possible can you please help me to sort out this
== 1
A body, initially at rest, is acted upon by four forces $\mathrm{F}{1}=\hat{\mathrm{i}}+\hat{\mathrm{k}}, \mathrm{F}{2}=2 \hat{\mathrm{j}}+3 \hat{\mathrm{k}}, \mathrm{F}{3}=3 \hat{\mathrm{i}}$ and $\mathrm{F}{4}=3 \hat{\mathrm{j}}-4 \hat{\mathrm{i}} .$ In which plane will the body move?
== 2
What is the output of this formula $$ \left(\frac{\mathrm{m}{1}+\mathrm{m}{2}}{2}\right) \mathrm{g} $$ , please answer?
== 3
In the derivation of expression for peak percent overshoot, $\mathrm{M}_{\mathrm{p}}=\exp \left(\frac{-\pi \xi}{\sqrt{1-\xi^{2}}}\right) \times 100 \%,$ which one of the following conditions is NOT required?
== 4
According to the relation $\mathrm{H}=\mathrm{I}^{2} \mathrm{Rt},$ where $\mathrm{I}$ is current, $\mathrm{R}$ is resistance and t is time. If the errors in the measurement of $\mathrm{I}, \mathrm{R}$ and $\mathrm{t}$ are $3 \%, 4 \%$ and $6 \%$ respectively then error in the measurement of $\mathrm{H}$ is :
== 5
$$ \begin{aligned} &\text { In the derivation of expression for peak percent overshoot, }\ &\mathrm{M}_{\mathrm{p}}=\exp \left(\frac{-\pi \xi}{\sqrt{1-\xi^{2}}}\right) \times 100 \%, \text { which one of the following conditions is NOT required? } \end{aligned} $$
Not rendering properly, if possible can you please help me to sort out this